The present invention relates to a cradle assembly for a drafting device of a spinning machine comprising an apron cradle for a first top apron and a second top apron, wherein said apron cradle is provided for supplying a common front roller with two types of bundle of fibres.

Background of the invention

The production of fancy yarn of the type that it combines the use of two types of roving or fibres of different colours or nature is known.

Patent WO20153381 1 discloses a production method of fancy yarn wherein the feeding of a first type of bundle and a second type of bundle is operated to form a yarn that combines different blending rations of these two types of fibres. This fancy yarn production method requires the use of a drafting device that has two rows of apron pairs located behind the front rollers and provided for supplying a common front roller with the two types of bundle of fibres.

The drafting device disclosed in the above-mentioned patent includes front rollers, a middle apron pair which is disposed behind the front rollers and supplies a first type of bundle of fibres to the front rollers, and a back apron pair which is disposed behind the front rollers and supplies a second type of bundle of fibres to the front rollers. The first type of bundle supplied to the middle apron pair is drafted between the front rollers and the middle apron pair, while the second type of bundle supplied to the back apron pair is drafted between the front rollers and the back apron pair. These middle apron pair and the back apron pair are controlled for the start and stop thereof during spinning by controlling the operation of the middle bottom roller and the back bottom roller. Thus, with a simple structure of the drafting device, the blending ration of two different types of fibres can be changed within a range and a desired fancy yarn can be spun continuously.

The middle apron pair disclosed in the drafting device of the above-mentioned patent includes a middle bottom apron and a middle top apron, and said middle top apron is wrapped around and between a middle top roller and an apron cradle. The back apron pair of the same drafting device includes a back bottom apron and a back top apron, and said back top apron is wrapped around and between a back top roller and the same apron cradle. Both said middle top apron and said back top apron use a common top apron tensioner on the same apron cradle that is intended to keep in position the top aprons over the rotating top rollers.

It is known that top apron tensioners are needed for the top aprons to move smoothly and uniformly over the top rollers so that fibres are effectively guided in the main draft zone to achieve a good quality yarn. The shape of the top aprons over the top rollers may vary depending on the apron lengths and also on the frictional forces. Top apron tensioners help keeping the top aprons in position during rotation. However, in the particular case of the yarn production method disclosed in patent WO20153381 1 , it has been found difficult to achieve a proper adjustment of the tension of the middle and back top aprons since although the two rows of top aprons are guided by the same apron cradle, they have a different length and they are wrapped around different top rollers. This difference in length makes difficult to regularizing the tension in the apron during rotation over the top rollers.

It is therefore necessary to provide a solution to the state of the art which covers the gaps found therein, by the provision of an assembly which overcomes the above-mentioned shortcomings, and hence provides an optimum tension in top aprons during rotation over the rollers of a drafting device of a spinning machine that produces a fancy yarn that combines two types of bundle of fibres. Description of the invention

The objective of the present invention is that of providing an improved cradle assembly for a drafting device of a spinning machine, comprising an apron cradle for a first top apron and a second top apron, wherein said apron cradle is configured for supplying a front roller of a common spinning position with two types of bundle of fibres.

In accordance with this objective, according to a first aspect, the present invention provides a cradle assembly that is characterized in that the apron cradle includes;

a first tensioning means for a first top apron, and

a second tensioning means for a second top apron,

wherein said first and second tensioning means comprise first and second movable tensioning surfaces, and said movable tensioning surfaces are movably mounted on said apron cradle to be able to independently act on the first top apron and the second top apron upon movement to a tensioning working position.

According to a second aspect, the present invention provides a drafting device for a spinning machine, comprising the claimed cradle assembly, that includes;

a first top apron with a first apron length for supplying a first type of bundle of fibres to a front roller, said first top apron being wrapped around a first movable tensioning surface of the apron cradle and a middle top roller of the drafting device, and a second top apron with an apron length different from the length of the first top apron for supplying a second type of bundle of fibres to the same front roller, said second top apron being wrapped around a second movable tensioning surface of the same apron cradle and a back top roller of said drafting device,

wherein said first and second movable tensioning surfaces are movably mounted on the said apron cradle to be able to independently act on the first top apron and the second top apron upon movement to a tensioning working position.

According to a third aspect, the present invention provides a method of drafting a fancy yarn with the claimed cradle assembly. The method is characterized in that it includes the steps of;

a) drafting a first type of bundle of fibres by means of a middle apron pair that supplies a front roller with said first type of bundle of fibres, the top apron of said middle apron pair being wrapped around a first movable tensioning surface of an apron cradle and a middle top roller,

b) drafting a second type of bundle of fibres by means of a back apron pair that supplies the same front roller with said second type of bundle of fibres, the top apron of said back apron pair being wrapped around a second movable tensioning surface of the same apron cradle and a back top roller, and the step of,

c) independently acting on the top aprons of said middle and back apron pair by moving said first and second movable tensioning surfaces of the same apron cradle to attain an independent working tension position during rotation of said top aprons over the middle and back top rollers.

According to fourth aspect, the present invention provides a ring spinning machine provided with the claimed cradle assembly for producing and drafting a fancy yarn according to the claimed method, said machine comprising;

- a middle apron pair to which a first bundle of fibres is supplied,

- a back apron pair to which a second bundle of fibres is supplied,

- wherein said middle apron pair and said back apron pair are controlled by operating a middle bottom roller and a back bottom roller, and

- a processing and control unit configured to allow the simultaneous feeding of said first bundle of fibres and said second bundle of fibres to a drafting device of a single spindle position, so that said both bundles of fibres are susceptible of being simultaneously drafted between the front rollers and the middle apron pair, and between the front rollers and the back apron pair.

The present invention provides an improved cradle assembly that includes two movable tensioning surfaces that are movably mounted on the same apron cradle to be able to independently act on the first top apron and the second top apron upon movement to a tensioning working position. In this way, each movable tensioning surface is able to attain an independent tensioning working position. The apron cradle which include the movable tensioning surfaces that act on the first and second top apron is configured for supplying a front roller of a common spinning position with two types of bundle of fibres, the fibres used to manufacture for example, a fancy yarn.

Thanks to these characteristics, the tension of a first top apron, for example, the middle top apron, and the tension of a second top apron, for example, the back top apron, may be simultaneously adjusted as required during rotation of said top aprons over the top rollers, by independently acting on the middle and back top aprons with two tensioning surfaces movably mounted on the same apron cradle. In this manner, a uniform movement of each top apron over the top rollers is ensured to guarantee a high quality yarn despite the fact that these top apron have a different length and rotate over different top rollers.

Indeed, the movement of each tensioning surface helps to regulate the tension in its corresponding top apron during rotation of said apron over the top rollers, such that smooth and uniform movement of the two top aprons is enabled without the tension of one top apron influencing or changing the tension of the other. Thus, the quality of the fancy yarn production is ensured.

According to a preferred embodiment, the first movable tensioning surface is movably mounted on the apron cradle such that it is able to act on the first top apron upon movement, and the second movable tensioning surface is movably mounted adjacent to the first one such that it is able to independently act on the second top apron upon movement.

Preferably, said first, or said second, tensioning movable surface comprise an apron lateral separator element arranged to prevent the first top apron from sliding laterally over the adjacent second top apron.

Advantageously, each of said first and second movable tensioning surfaces is foreseen on a different top apron support movably mounted on a cradle frame of said apron cradle and, preferably, according to an embodiment, each of said movable top apron supports includes a convex and, optionally, engraved movable tensioning surface over which a corresponding top apron moves on.

Thanks to these characteristics, each top apron rotates over its own convex surface provided on a different top apron support and said top apron supports are movably mounted on the cradle frame of the apron cradle to be able to attain an independent tensioning working position upon movement, for example, upon rotation from a first resting position to a second tensioning working positon to act on its corresponding top apron.

For a preferred embodiment, each of said movable top apron supports is movably mounted on the cradle frame such that each of them is able to accumulate, in a tensioning working position, potential energy capable of being independently transmitted as a tension force to the corresponding top apron while said top apron moves over its corresponding movable top apron support. This cumulated potential energy may come from the compression force applied to a spring or, for example, to a pneumatic element, or to any other similar element or device.

This embodiment has the advantage that helps to maintain consistent nip position and adjusts in real time for any fluctuations in apron length during rotation.

Preferably, the cradle frame of the apron cradle includes a fixed wedge-shaped top apron support and the movable top apron supports of both said first and second top aprons are movably mounted on said fixed wedge-shaped top apron support.

In this way, both the first and second top aprons may be wrapped around said common fixed wedge-shaped support so that an accurate position of the top aprons next to the front rollers is ensured.

According to an embodiment, the claimed cradle assembly comprises an apron cradle with a first movable top apron support with a first width and a second movable top apron support with a second width different from the first width , and preferably, said cradle assembly comprises a first apron cradle for a first spinning position S1 , and a second apron cradle for a second spinning position S2, said first and second apron cradles being mounted on a single cradle frame attachable to the weighting bar of an spinning machine.

Each of said first and second apron cradles comprises a first tensioning means for said first top apron and a second tensioning means for said second top apron, wherein said first and second tensioning means comprise first and second movable tensioning surfaces, and said movable tensioning surfaces are movably mounted on each of said apron cradles to be able to independently act on the first top apron and the second top apron upon movement to a tensioning working position.

Advantageously, according to the same embodiment;

the first apron cradle has a narrower first top apron support that is provided with a guide element and an apron lateral separator element,

the second apron cradle has a wider first top apron support that is provided with a laterally displaced guide element and an apron lateral separator element and, preferably,

the movable top apron supports of the first and second apron cradles are mounted interchangeably on said cradle frame such that the distance (d1 , d2) between the apron lateral separator elements of both apron cradles is set to vary in order to modify the position of the spinning positions S1 , S2 of the spinning machine. It has been found that the position of the apron lateral separator element of each apron cradle determines the spinning position of the fancy yarn so that by providing top apron supports of different width and by interchanging the top apron supports of both apron cradles, it is possible to change the distance (d1 , d2) between apron lateral separator elements of both apron cradles and therefore, it is possible to change very easily the spindle gauge of the spinning machine (that is to say the distance between the spinning positions S1 , S2 of the spinning machine) without the need to modify the distance between rollers and avoiding to provide different cradle assemblies for each spindle gauge.

In the present invention;

Fancy yarn shall be understood to be yarn formed from a first type of bundle of fibres and a second type of bundle of fibres, said first type of bundle of fibres being, for example, a bundle selected from among natural, artificial or synthetic fibres, and said second type of bundle of fibres being, for example, a bundle selected from among natural, artificial or synthetic fibres.

Roller pair shall be understood to be a top roller and a bottom roller of a drafting device. The bottom rollers are positively driven and the top rollers are driven by the friction between the top rollers and the bottom rollers.

Apron shall be understood to be an endless belt made from rubber or any other suitable material. The apron helps in guiding the fibres from one roller pair to the other roller pair of the drafting device.

Apron cradle shall be understood to be an element that has the function of keeping top aprons in position over the rotating top roller so that fibres are effectively guided in the draft zone.

Apron pair shall be understood to be the pair of aprons that are provided on the top rollers and the bottom rollers to transfer the fibres from the middle roller pair to the front roller pair (middle apron pair), or from the back roller pair to the front roller pair (back apron pair). The aprons on the top rollers are guided by apron cradles and the aprons on the bottom rollers are guided by nose bars. For drafting the fibres, each of the bottom rollers are driven at different rotational speeds such that the front bottom roller is driven at a higher speed than the middle bottom roller and that the back bottom roller. Due to the speed difference, the fibres of each type of bundle are distributed and parallelized (drafted) while passing between a corresponding apron pair.

Spindle gauge shall be understood to be the distance between the axes of two adjoining spindles or the distance between two adjacent spinning positions S1 , S2.

Brief description of the drawings

For a better understanding of that which is described herein, a set of drawings is attached which, schematically and solely by way of non-limiting example, represent a practical case of embodiment.

Figure 1 shows a perspective view of an embodiment of a cradle assembly of the present invention including a first apron cradle for a spinning position and a second apron cradle for a second spinning position. Each apron cradle has a first and a second tensioning movable surfaces foreseen on different movable top apron supports.

Figure 2 shows a perspective view of the cradle assembly of figure 1 wherein one top apron support of each apron cradle have been represented in a different tensioning working position.

Figure 3 shows four isolated different top apron supports of the cradle assembly of figure

1 wherein each first and second top apron support of each apron cradle has a different width.

Figure 4 shows two front views of two cradle assemblies wherein each cradle assembly is set with a different distance (d1 , d2) between apron lateral separator elements of apron cradles.

Figure 5 shows a perspective view of the cradle assembly of figure 1 with a cut section on a first top apron support movably mounted on the cradle frame of one of the apron cradles. This figure 5 shows the spring upon which the top apron support acts when in a tensioning working position.

Figure 6 shows a perspective view of a drafting device of a machine for spinning fancy yarn that incorporates the cradle assembly of figure 1 . This figure 6 shows the top aprons supports of each apron cradle independently acting on the first and second top aprons of the drafting device.

Figure 7 shows a side view of the drafting device of figure 7 incorporating the cradle assembly of figure 1 . Description of one preferred embodiment

Following is a description of an embodiment of the cradle assembly for a drafting device of a spinning machine. In particular a cradle assembly for a drafting device including two rows of apron pairs for supplying a common front roller with two types of bundle of fibres.

As shown in the appended figures, the present invention relates to a cradle assembly, comprising a first 1 apron cradle and a second 2 apron cradle mounted on a single cradle frame 3 attachable to the pressure or weighting bar 4 of a ring spinning machine.

The first 1 apron cradle has a first and a second top apron support for the first 5 and second 6 top aprons of a first spinning position S1 , and the second 2 apron cradle has a first and a second top apron supports for the first 7 and second 8 top aprons of a second spinning position S2.

Each top apron support defines a tensioning movable surface A1 , A2, and a1 , a2 that may independently act on the first 5, 7 and second 6, 8 top apron upon movement to a tensioning working position. Figure 2 depicts the second top apron support of each apron cradle 1 , 2 displaced to a tensioning working position different from the position of the first top apron supports of the same apron cradles 1 , 2.

For the illustrated embodiment, each of the above-mentioned top apron supports including its corresponding movable tensioning surfaces A1 , A2, a1 , a2, is mounted movably on a common fixed wedge-shaped support 9 of the cradle frame 3 to be able to attain an independent tensioning working position upon rotation on a shaft 1 1 of the support 9. In its working position each top apron support is able to accumulate potential energy from the compression force applied to a spring 14. Figure 5 shows the spring 14 upon which the top apron support a1 acts. Although not represented in the figures, each top apron support is arranged to act on an independent spring so that the cumulated potential energy of each top apron support may be independently transmitted as a tension force to the corresponding top apron 5, 6, 7, 8 whereas each top apron 5, 6, 7, 8 moves over its corresponding movable top apron support .

As stated in the description of the invention, the claimed cradle assembly allows the tension of two top aprons 5, 6 or 7, 8 to be simultaneously adjusted and to be regularized in real time during rotation on the same apron cradle 1 , 2 without the tension of one top apron 5, 7 influencing or changing the tension of the other top apron 6, 8. Thus, the claimed cradle assembly provides an optimum tension in top aprons 5, 6 or 7, 8 of the same apron cradle 1 , 2 and ensures that the drafted fibres of each type of bundle of fibres of the fancy yarn are transferred to a common front roller in optimum conditions.

As can be seen on the figures, the first top apron support including first movable tensioning surfaces A1 , a1 of each apron cradle 1 , 2 comprises an apron lateral separator element 10a, 10b arranged adjacent to the second top apron support to prevent the first top apron 5, 7 from sliding laterally over the adjacent second top apron 6, 8. In fact, this apron lateral separator elements 10a, 10b divide the tensioning movable surface of each apron cradle 1 , 2 in two different tensioning surfaces A1 , A2, a1 , a2 that can independently act on the first and second top aprons 5, 6, 7, 8 to attain different independent tensioning working positions. For the illustrated embodiment, the tensioning movable surface A1 , a1 , A2, a2 of each top apron support is slightly convex and, preferably, engraved to decrease the contact surface with the corresponding top apron 5, 6, 7, 8.

Figure 3 shows isolated top apron supports including movable tensioning surfaces A1 , A2, a1 , a2 of the cradle assembly of figure 1 , wherein it can be observed that the first and second top apron supports of each apron cradle 1 , 2 have been designed with a different width. As it is clear from figure 3 and also from figure 4, the first apron cradle 1 has a narrower first top apron support having a first movable tensioning surface A1 that is provided with a guide element 12a and an apron lateral separator element 10a, whereas the second apron cradle 2 has a wider first top apron support having a first movable tensioning surface a1 that is provided with a guide element 12b and an apron lateral separator element 10b. As it can be observed, the guide element 12a of the said first top apron support of the second apron cradle 2 has been arranged laterally displaced to delimit the tensioning surface a1 of the top apron 7.

In fact, in the embodiment described, the width of the top apron supports including the movable tensioning surfaces A1 , A2, a1 , a2 of both apron cradles 1 , 2 has been designed so that the position of the apron lateral separator element 10a, 10b when mounted on the cradle frame 3 is set to be different and, thus, it is different the spinning position S1 , S2 on each apron cradle 1 , 2. Moreover, as top apron supports of each apron cradle 1 , 2 are mounted interchangeably on the cradle frame 3, the distance d1 , d2 between the apron lateral separator elements 10a, 10b of both apron cradles 1 , 2 may set to vary in order to modify the position of the spinning positions S1 , S2 of the drafting assembly (that is to say the spindle gauge of the spinning machine).

Figure 4 shows two front views of two cradle assemblies wherein each apron cradle is set with a different distance (d1 , d2) between apron lateral separator elements 10a, 10b of apron cradles 1 , 2. As stated in the description, the claimed cradle assembly allows to modify the spindle gauge of the spinning machine (the distance between spinning positions S1 , S2) without the need to modify the distance between rollers and avoiding to provide different cradle assemblies for each spindle gauge.

Figures 6 and 7 show a perspective and side view of a drafting device 13 of a machine for spinning fancy yarn that incorporates the cradle assembly of figure 1 .

As it is shown in the figures 6 and 7, for each spinning position S1 , S2, the drafting device

13 comprises a middle apron pair to which a first type of bundle of fibres is supplied and an adjacent back apron pair to which a second type of bundle of fibres is supplied. These two rows of adjacent apron pair are provided for supplying a common front roller pair R1 a, R1 b of the said drafting device 13 with two types of bundle of fibres that are to be combined to form a particular fancy yarn.

The first top apron 5, 7 of each apron cradle 1 , 2 is wrapped around its corresponding first movable top apron support of the apron cradle 1 , 2 and a middle top roller R2a of the drafting device 13, whereas the second top apron 6, 8 of the same apron cradle 1 , 2 is wrapped around its corresponding second adjacent movable top apron support and a back top roller R3a of the drafting device 13. As stated on the description, the length of the top aprons 5, 6 or 7, 8 that move over the same apron cradle 1 , 2 is different as well as it is also different the type of bundle of fibres that are transferred by each of said top aprons 5, 6 or 7, 8. These length variations result in different friction forces and changes in the apron tension during rotation. By virtue of the claimed cradle assembly, the tension of the top aprons 5, 6 or 7, 8 that move over the same apron cradle 1 , 2 may be simultaneously adjusted and regularized during rotation without the tension of one top apron 5, 7 influencing or modifying the tension of the other top apron 6, 8.

Following is a description of a method of spinning a fancy yarn that uses a drafting device with the claimed cradle assembly.

The drafting device of the spinning machine shown on figures 6 and 7 is a known three- roller pair RI a, R1 b, R2a, R2b, R3a, R3b drafting device including for each spinning position S1 , S2 a weighting arm 4 and an apron cradle 1 , 2.

The bottom rollers R1 b, R2b, R3b of each pair of rollers are configured by cylinders which are mounted on trestles that support a rod whereon the weighting arms are mounted (a weighting arm 4 for each two spindle positions S1 , S2). These weighting arms have the function of positioning and securing the top rollers of the three lines of rollers (back R3a, middle R2a, and front R1 a) under pressure on their respective bottom rollers.

As can be observed in figures 6 and 7, the drafting device 13 includes, for each spindle position S1 , S2, two rows of top drafting aprons 5, 6 or 7, 8 that encircle the middle top rollers R2a and back top rollers R3a and its corresponding top apron supports having movable tensioning surfaces A1 , A2, a1 , a2 of the apron cradles 1 , 2. In each spindle position S1 , S2, the middle rollers R2a, R2b are responsible for feeding a first type of bundle of fibres that are drafted between the middle apron pair, while the back rollers R3a, R3b are responsible for feeding a second type of bundle of fibres that passes parallel to the first bundle of fibres, and are drafted between the back apron pair.

The feeding of the two bundles of fibres is carried out in parallel when the back rollers R3a, R3b and the middle rollers R2a, R2b are actuated by corresponding servomotors through a processing and control unit which is programmed for simultaneously or alternatively feeding said two type of bundle of fibres for the purpose of forming fancy yarn that combines different blending ratios of these two types of fibres.

During drafting, rotation of the top aprons 5, 6, 7, 8 takes place over the movable tensioning surface A1 , a1 , A2, a2 of the top apron supports of each apron cradle 1 , 2 so that the tensioning surfaces A1 , a1 , A2, a2 of said top apron supports are able to independently act on the each top apron 5, 6, 7, 8 upon movement to a tensioning working position. Figures 6 and 7 represent the top aprons supports of each apron cradle 1 , 2 on a different tensioning working position. In this working position, potential energy is being accumulated on each top apron support from the compression force applied to a different spring 14. This potential energy is being transmitted as a tension force to its corresponding top apron 5, 6, 7, 8 whereas said top aprons 5, 6, 7, 8 rotate over the movable surfaces A1 , a1 , A2, a2 of the top apron supports and the top rollers R2a, R3a, are guided by the guide elements 12a, 12b and the apron separator elements 10a, 10b.

As stated on the description, the movement of each tensioning surface A1 , a1 , A2, a2 of the top apron supports helps to regulate in real time and during rotation the tension of its corresponding top apron 5, 6, 7, 8 to ensure an optimum tension to guarantee an optimum quality of the fancy yarn.

Despite the fact that reference has been made to a specific embodiment of the invention, it is evident for a person skilled in the art that the claimed cradle assembly and method is susceptible to many variations and changes, and that all the aforementioned details may be replaced by other technically equivalent ones, without detracting from the scope of protection defined for the attached claims. For example, although it has been disclosed a cradle assembly with two apron cradles and each apron cradle provided with top apron supports of different width, it would be possible to provide the same cradle assembly with top apron supports of the same width on condition that said top apron supports are independently movably mounted on the cradle frame. Likewise, although it has been disclosed a cradle assembly wherein each apron cradle is provided with two top apron supports, the number of movable top apron supports for each apron cradle could not be limited to the number of two. Besides, although the first top apron supports A1 , a1 have been depicted comprising said apron lateral separator elements 10a, 10b, these separator elements could have been depicted on the second top apron supports having movable tensioning surfaces A2, a2 if they were designed and arranged to prevent the first top apron 5, 7 from sliding laterally over the adjacent top apron 6, 8.