US3407586A

US3407586A - Apparatus for crimping yarn

Info

Publication number: US3407586A
Application number: US672369A
Authority: US
Inventors: Gilchrist Reginald Selby; Mattingly Dennis Albert Edward
Original assignee: Klinger Manufacturing Co Ltd
Current assignee: Klinger Manufacturing Co Ltd
Priority date: 1964-12-15
Filing date: 1967-10-02
Publication date: 1968-10-29
Anticipated expiration: 1985-10-29

Description

Oct. 29, 1968 R. s. GILCHRIST ETA!- 3,407,536

. APPARATUS FOR CRIMPING YARN Original Filed Dec. 15, 1964 Wadi 92M?! 4 Ar oe/viys United States Patent ice 3,407,586 APPARATUS FOR CRIMPING YARN Reginald Selby Gilchrist, Welwyn Garden City, and Dennis Albert Edward Mattingly, London, England, assignors to The Klinger Manufacturing Company Limited, London, England, a British company Original application Dec. 15, 1964, Ser. No. 418,480, now Patent No. 3,355,872, dated Dec. 5, 1967. Divided and this application Oct. 2, 1967, Ser. No. 672,369

6 Claims. (Cl. 5734) ABSTRACT OF THE DISCLOSURE A plurality of yarns are simultaneously crimped by intermittently moving them through separating means spaced apart in the direction of yarn travel, at least one of which is rotating, whereby the yarns are oppositely twisted at locations before and after the central area of the separating means. Heat may be applied to the yarns either differentially or non-differentially at the twisting locations.

This application is a division of copending application 418,480 tfiled Dec. 15, 1964, now U.S. Patent No. 3,355,872, and entitled Methods and Apparatus for Crimping Yarns.

This invention relates to apparatus for crimping yarns and also to apparatus for separating yarns.

According to one aspect of the invention, there is provided an apparatus for crimping at least two yarns simultaneously in which the yarns are extended through three separating means spaced apart along the yarns and at least one of said separating means is rotated so that the stretches of the yarns on each side of the location of the middle separating means are twisted in opposite directions. When each said stretch has received its desired number of twists, the twisting operation is arrested and then the yarns are traversed through the three separating means, the twists being maintained in the stretches of the yarns on opposite sides of said middle separating means.

During the said twisting operation, the middle separating means may remain stationary and the end separating means be rotated in the same direction, either simultaneously or sequentially. The number of twists on each side of the middle separating means may be the same or different.

Alternatively, the middle separating means can be rotated to impart, or help impart, the opposite twists to said stretches of the yarns in this case the middle separating means will hereinafter be referred to as a or the twisting mechanism.

According to another aspect of the invention, there is provided a method of crimping two yarns simultaneously in which the yarns are arranged to extend between two yarn separating means and are subjected to a twisting operation at a location between the two said separating means so that the stretches of yarns between said location and the separating means are each twisted in opposite directions on opposite sides of said location which twisting operation is arrested after a predetermined number of twists have been imparted to the yarns in each said stretch on each side of said location, whereafter the yarns are traversed through the yarn separating means, the twists being retained in the stretches of the yarns on opposite sides of said location. More than two yarns can be simultaneously crimped.

Preferably, the oppositely twisted stretches of yarns are heated on opposite sides of said location.

The lengths of said stretches of yarns on opposite sides of said location may differ. These lengths may be adjustable.

3,407,586 Patented Oct. 29, 1968 The yarns may be differentially heated on opposite sides of said location.

Each yarn can be monoor multi-filament and can include a thermoplastic component or be constituted of thermoplastic.

An apparatus for carrying out one aspect of the invention may comprise means for supporting two supply bobbins, two yarn separating means through which the yarns can pass, twisting mechanism disposed at a location between the two yarns separating means and being capable of twisting the yarns together in opposite directions on opposite sides of the twisting: mechanism, said twisting mechanism being adapted to permit the yarns to be drawn past it whilst maintaining the opposite twists in the yarns between it and the two yarn separating means, a driving transmission for the twisting mechanism embodying means for arresting the twisting mechanism, means for feeding the yarns through the apparatus, and means for setting the yarns.

The means for setting the yarns can comprise heating means on each side of the twisting mechanism.

The twisting mechanism may comprise a pin or the like which is inserted between the two yarns and extends in a direction transverse to the length of the yarns and is mounted to rotate about an axis extending in the direction of the length of the yarns.

It will be appreciated with this arrangement that when the rotation of the pin is arrested and the two yarns are drawn past it, the number of twists in the two yarns on opposite sides of the pin will be preserved.

Alternatively, the twisting mechanism may comprise a structure on which are mounted either a number of rollers around which the yarns are respectively wound or a number of eyes or apertures through which the yarns are respectively threaded and means for rotating said structure about an axis parallel to the general direction of travel of the yarns.

Means may be provided for adjusting the position of the twisting mechanism relative to the two yarn separating means whereby the ratio of twist per inch in the yarns on opposite sides of the twisting mechanism may be varied.

Each yarn separating means may comprise two or more eyes or guides spaced apart transversely to the general direction of travel of the yarn and through which the yarns respectively pass.

In the case where two yarns are twisted together, the aforesaid feeding means may comprise two pairs of conical nip rollers each yarn passing between two of the nip rollers, one of which rollers in each pair has its axis arranged substantially at right angles to the twisted yarns prior to their separation, a structure disposed prior to said conical nip rollers and arranged to pivot freely about an axis transverse to the axes of rotation of said one roller in each pair, a first guide mounted on said structure and through which the twisted together yarns pass just before being separated, a pair of second guides mounted on said structure on the opposite side of its pivotal axis to the first guide, the second guides being arranged so that a separated yarn passes through each prior to the separated yarns passing through said conical nip rollers. By these means, the rate of separation of two crimped yarns may be automatically equalised since if one yarn is being separated at a greater rate than the other, the structure, by reason of unequal tension of the yarns, is swung in a direction to bring said one yarn onto a smaller part of the conical rollers which engage it.

The separated yarns may pass to separate take-up bobbins or may be wound on one and the same take-up bobbin.

It will be appreciated with the above mechanism, or

with other mechanisms for carrying out the invention, any of the following methods may be carried out.

The twisting of the yarns together may be carried out whilst the yarns are stationary, and after a predetermined number of twists have been imparted to the yarns in opposite senses on opposite sides of the twisting mechanism or the middle separating means, as the case may be, the twisting ceases and the yarns are then continuously drawn through the apparatus until the supply is exhausted.

Alternatively, the initial twisting may be carried out whilst the yarns are travelling through the apparatus and when the required number of twists have built up in opposite senses on opposite sides of the twisting mechanism or the middle separating means, as the case may be, the twisting ceases and the travel of the yarn is continued until the supply is exhausted.

Alternatively, in either of the two methods just referred to above, instead of the twisting ceasing after the initial twisting together of yarns it may be carried out at a different rate or it may cease for a short period and then continue for another period and so on so that the crimping effect along the yarns may be varied.

Similarly, the crimping effect along the yarn may be varied by cyclically moving the twisting mechanism or the middle separating means, as the case may be, between the two yarn end separating means.

According to yet another aspect of the present invention there is provided an apparatus for separating two yarns and feeding the separated yarns forward at equal speeds, said apparatus comprising a first guide through which the yarns pass prior to their separation, a pair of second guides through which the separated yarns pass, a member pivotal about an axis, said first guide being mounted on said member on one side of its pivotal axis and said pair of second guides being mounted on said member on the other side of its pivotal axis, and two pairs of conical nip rollers, each pair of rollers being arranged adjacent one of said second guides so as to receive a separated yarn from that guide, the arrangement being such that when one of the separated yarns is being fed faster by its pair of conical rollers than the other separated yarn, then the reaction of the yarns before separation on the first guide causes said member to pivot to move said second guide so that the faster moving separated yarn is moved to a smaller part of the conical rollers feeding it and the slower moving yarn moves to a larger part of the conical rollers feeding it.

By way of example, embodiments of the invention will now be described with reference to the accompanying diagrammatic drawing which is a schematic plan view of an apparatus with part of said twisting mechanism shown in section.

Two yarns 10, 11 (for example 40 denier l3 filament nylon 66 yarns) to be processed are drawn olf supply bobbins 12 and 13 mounted on a fixed part of the apparatus. The yarns pass through two eyes 14, 15, respectively, also mounted on a fixed part of the apparatus. The yarns are wound respectively around two rollers 16, 17 rotatably attached to a bar 18 which extends across and is mounted in an externally toothed gear ring 19 which meshes with and is supported by a plurality of idler gear wheels (not shown) so as to be rotatable about an axis extending in the general direction of the yarn. The gear ring 19, and thereby the bar 18, is rotatable by a motor 20 through a variable speed transmission 21 and a pinion 8 mounted on a shaft 9. The transmission 21 may embody a clutch mechanism (not shown) whereby rotation of the gear ring 19 and bar 18 may be stopped or started.

The two yarns are oppositely twisted at 22 and 23 on opposite sides of the twisting mechanism and these oppositely twisted stretches of the yarns travel over two heaters 24, 25 which may be at the same or different temperatures. The twisted stretch 23 of the yarns then passes through an eye or guide 26 mounted at the end of a bar 27 freely pivoted at 27a to a fixed part of the apsaozsss 4 paratus. The two now crimped yarns 10 and 11 separate at or adjacent the guide 26 and pass respectively through two

eyes

28 and 29, mounted on a fixed part of the apparatus, and thence through two further eyes 31, 32 mounted on the arms of a V-shaped member 30 secured firmly to the other end of the bar 27 by a screw 33. The yarns then pass between two pairs'of conical feed rollers 34, 35 and 36, 37 respectively. The rollers 34 and 36 are mounted on a shaft 38 driven by a motor 39 through a change speed gear 40 embodying clutch means for engaging and disengaging the drive. The two yarns pass from the two pairs of feed rollers via traversing guides onto take-up spools 41, 42 mounted on a shaft 43 driven through a suitable transmission 44 from the motor 39.

The guide 26, bar 27, arms 30 and conical feed rollers 34, 35 and 36, 37 together form a compensating mechanism to enable the two yarns 10, 11 to be separated at the same rate and the separated yarns to be fed to the take-up packages 41, 42 at the same speed. The functioning of this compensating mechanism will now be described. Ideally the two yarns should separate immediately after passing through the guide 26. However, suppose the rollers 36, 37 are drawing the yarn 11 from the guide 26 at a faster speed than the rollers 34, 35 and so drawing r the yarn 10: the point of separation of the yarns 10, 11

will then pass beyond the guide 26 and will start to move towards the eye 29. Before this point of separation reaches the eye 29, the stretch 23 of twisted yarn now extending through the guide 26 will exert a pull on the guide 26 in a direction generally towards the top of the accompanying drawing and this will cause the bar 27 to turn about its pivot 27a clockwise so that the guide 26 moves towards the top of the drawing, and the eyes 31, 32 on the arms 30 move towards the bottom of the drawing. The movement of the eye 32 causes the yarn 11 to move towards the narrower ends of the rollers 36, 37 and so be drawn at a slower speed by these rollers; whereas the simultaneous movement of the eye 31 causes the yarn 10 to move towards the larger ends of the rollers 34, 35 and so be drawn at a faster speed by the rollers 34, 35. The clockwise movement of the bar 27, and arms 30, about the pivot 27a continues until the point of separation of the two yarns 10, 11 starts to move back towards the guide 26 and eventually the bar 27 will come to rest in a datum position such that the two yarns 10, 11 are being drawn at the same speed by the rollers 34, 35 and 36, 37. In this datum position, the bar 27 should be midway between the

eyes

28, 29 as shown in the drawing. If it is not, then the screw 33 can be loosened and the position of the arms 30 relative to the bar 27 adjusted until the bar 27 reaches the desired datum position, the screw 33 then being tightened to lock the arms 30 relative to the bar 27. Should the separated yarn 10 start running faster than the separated yarn 11, with the consequence that the point of separation of the yarns starts moving from the guide 26 towards the eye 28, then the bar 27 will move anti-clockwise until the speeds of the two separate yarns are compensated and the point of separation of the two yarns will return towards the guide 26. It will be noticed that the guide 26 is a greater distance from the pivot 27a than the eyes 31, 32 and this makes the compensating mechanism more sensitive:' preferably the guide 26 is at least twice the distance from the pivot 27a as the eyes 31, 32.

When the apparatus is to be started up, the two yarns 10, 11 are drawn by hand from the bobbins 12, 13 through the eyes 14, 15, then each yarn is wound around its roller 16 or 17, and then the two yarns are passed through the guide 26 and on through the other eyes etc. to the spools 41, 42. The motor 20 is then caused to rotate the gear ring 19 a predetermined number of revolutions to insert a predetermined number of twists in the oppositely twisted stretches 22, 23 on each side of the twisting mechanism. This initial twisting operation is then arrested and the drive to the feed rollers 34, 36 and to the take-up package 41, 42 started and the two yarns commence travelling through the apparatus from the supply bobbins 12, 13 to the take-up packages 41, 42. Because the gear ring 19 is now stationary, the twisted stretches 22, 23 will remain on each side of the gear ring 19. Thus with the heaters 24, 25 in operation, the yarns as they travel through the apparatus are first twisted about each other in one direction in the stretch 22 and this twist is set in the two yarns by the heater 24. As the yarns are separated for the first time by the rollers 16, 17 this set twist is de-twisted so producing a torsionally strained yarn similar to a conventionally false twisted yarn. The yarns are then twisted about each other in the opposite direction in the stretch 23 where they are set in the oppositely twisted state by the heater 25 before being separated by the eyes 28, 29-this second phase of operation on the already torsionally strained yarns simulating a false twist operation in the opposite direction. The properties of the final yarn passing to the packages 41, 42 will depend upon several factors, particularly the degree of heating imparted by the respective heaters 24 and 25: the final yarn may be arranged to have a residual torque in either the S or Z direction. However, it will be appreciated that by correct selection or adjustment of the heaters 24, 25 and correct adjustment of the axial position of the twisting mechanism relative to the two end separating means, the crimped yarns wound onto the spools 41, 42 can be substantially non-torque crimped yarns: an advantage of the present invention is that such non-torque crimped yarns can be produced by twisting the yarns twice but without the use of conventional false twisting heads. In fact, after the twisting mechanism has initially inserted the predetermined number of opposite twists in the stretches 22 and 23 of the yarns, the yarns can be continuously crimped as they pass from the bobbins, 12, 13 to the spools 41, 42 without further rotation of the twisting mechanism 16, '17, 18, 19 which remains arrested.

If desired, the gear ring 19 and bar 18 and the driving mechanism therefor may be arranged to be axially moveable in relation to the two pairs of

eyes

14, 15 and 28, 29 respectively, so that the relative lengths of the twisted stretches 22 and 23 can be varied to a considerable extent if desired.

In a modification of the illustrated embodiment the two end separating means, that is the two eyes 14, 15 on the one hand and the two

eyes

28, 29 on the other hand, can be movea'ble towards and away from the twisting mechanism 16, '17, 18, 19 in order to adjust the lengths of the oppositely twisted stretches 22 and 23 of yarns in order to control the quality and character of the crimp in the finally crimped yarns wound onto the spools 41, 43.

In a further modification, the rollers 16, 17 may be connected to driving means for rotating them about their own axes inorder to facilitate the traversing of the yarns through the apparatus.

Depending upon the yarn being crimped and the properties required in the crimped yarn, the eyes 14, 15 may each \be replaced by a yarn tensioning device such as, for example, a gate tensioner or a hysteresis tensioning disc. Alternatively, or in addition, each yarn may pass through a pair of positive feed rollers before being advanced to the twisted stretch 22: with this arrangement the yarn can be overfed to the twisted stretch 22, if desired.

The bar 18 and the rollers 16, '17 may be replaced by any suitable mechanism capable of imparting the initial twist to the stretches of yarn to either side of it, and then of separating the yarns as they pass from one side of it to the other.

It will be appreciated that with suitable modifications, three, four, or even more yarns can be twisted about each other in oppositely twisted stretches and simultaneously processed.

What we claim is:

1. An apparatus for crimping yarns comprising means for supporting two supply bobbins, two yarn separating means through which the yarns can pass, twisting mechanism disposed at a location between the two yarn separating means and being capable of twisting the yarns together in opposite directions on opposite sides of the twisting mechanism, said twisting mechanism being adapted to permit the yarns to be drawn past it while maintaining the opposite twists in the yarns between it and the two yarn separating means, a driving transmis sion for the twisting mechanism embodying means for arresting the twisting mechanism, means for feeding the yarns through the apparatus, and means for setting the yarns.

2. An apparatus as claimed in claim 1 in which said means for setting the yarns comprises a heating means on each side of the twisting mechanism.

3. An apparatus as claimed in claim 1 in which the twisting mechanism comprises a structure on which are mounted a plurality of rollers around which the yarns can respectively be wound, and means for rotating said structure about an axis parallel to the general direction of travel of the yarns.

4. An apparatus as claimed in claim 1 in which said means for feeding through the apparatus comprises two pairs of conical nip rollers, one pair for each separated yarn, one of the rollers in each pair having its axis substantially at right angles to the twisted yarns prior to their separation, a structure disposed prior to said pairs of rollers and arranged to pivot about an axis transverse to the axes of rotation of said one of the rollers in each pair and transverse to the twisted yarns prior to their separation, a first guide mounted on said structure and through which the twisted together yarns pass just before being separated, and a pair of second guides mounted on said structure on the opposite side of its pivotal axis to the first guide, the second guides being arranged so that a separated yarn passes through each just: prior to the separated yarns passing through said pairs of rollers, the arrangement being such that when one of the separated yarns is being fed faster by its pair of conical rollers than the other separated yarn, then the reaction of the yarns before separation on the first guide causes said structure to pivot to move said second guides so that the faster moving separated yarn is moved to a smaller part of the conical rollers feeding it and the slower moving yarn moves to a larger part of the conical rollers feeding it.

5. An apparatus as claimed in claim 4 in which a pair of third stationary guides are disposed adjacent said first guide and so that the separated yarns pass through said third stationary guides before passing through said second guides.

6. An apparatus as claimed in claim 4 in which said first guide is a greater distance from the pivotal axis of said structure than said second guides.

References Cited UNITED STATES PATENTS 2,987,869 6/ 1961 Klein 57-34 3,010,271 1 1 1961 Batsch 57-34 3,091,908 9/ 1963 Carruthers 57-34 3,192,697 7/1965 Carruthers 57-34 3,237,391 3/ 1966 Carruthers 57-34XR 3,261,155 7/ 196-6 Kunzle 57-34 3,261,116 7/1966 Kunzle et al. 57-34 3,261,156 7/ 1966 Kunzle et al 57-34 FOREIGN PATENTS 1,197,715 12/1959 France.

788,944 I/ -8 Great Britain.

531,033 7/1955 Italy.

FRANK J. COHEN, Primary Examiner.

D. E. WATKINS, Assistant Examiner.