The invention relates to a yarn tuft holder. The invention relates, in particular, to a yarn tuft holder for an Axminster loom for making Axminster carpet.
On a gripper Jacquard Axminster loom each weaving point includes a yarn carrier which is normally fed by eight, or sometimes sixteen, yarns usually of different colour and the Jacquard mechanism moves the carrier to bring a selected yarn to the yarn selection position. A gripper moves towards the carrier, grips the yarn at the yarn selection position then relative movement apart of the gripper and the carrier pulls a predetermined length of yarn from the carrier.
The yarn is then cut to form a tuft and moved by the gripper to the weaving point. The tuft carried by the gripper is of the appropriate colour for the tuft to be supplied to the next row of carpet to be woven.
In spool Axminster looms a separate spool is provided for each row of the pattern repeat and each spool has a separate yarn winding for each weaving point along each row.
In both the Jacquard and spool Axminster looms a row of tufts for a complete row of the carpet is created simultaneously and transferred to the weaving point at which they are woven into a backing to produce the carpet.
A different approach to yarn tuft formation is described in WO 95/31594. Tufts of yarn to form a row of the carpet are produced by first loading yarn tufts into a yarn tuft holder by traversing the tuft holder stepwise through a sequence of loading positions so as to temporarily present predefined tuft retention sites of the tuft holder to each of a plurality of stationary tuft forming units. At each loading position one or more tufts are loaded into the sites by the tuft forming units until the tuft holder is loaded with tufts for a complete row of the carpet. The tufts are then transferred from the tuft holder to the weaving points simultaneously by means of grippers. Since the grippers do not perform the tuft formation, tuft formation can take place at the same time as the weaving operation and thus tuft formation can take place substantially continuously throughout the operation of the loom. This is to be contrasted with the conventional spool or gripper type looms where tuft formation takes place over only about half of each weaving cycle.
A yet further approach to yarn tuft formation is described in WO 02/00978. The loom includes one or more tuft forming units each of which includes a yarn selector wheel which typically holds 12 or 24 yarns of different colour. A motor drives the yarn selector wheel into one of a number of angularly discrete positions to select yarn of a predetermined colour. As the or each tuft forming unit traverses the loom relative to a stationary yarn tuft holder, tufts of predetermined colour are placed in tuft retention sites of the tuft holder. When the tuft holder is loaded with tufts for a complete row of the carpet, the tufts are transferred from the tuft holder to the weaving points simultaneously by means of grippers.
The yarn tuft holders of the prior art may take many different forms for securely holding each tuft. The tuft holder may be rigid and the profile of each slot defining a tuft retention site may be shaped such that the inherent elasticity of the tuft holds the tuft at the bottom of the slot when pressed therein. Alternatively, one or both opposing sides of each slot may be formed of a resilient material capable of gripping a tuft presented into the slot. Yet further, the sides of each slot may be rigid and a resilient clip may be provided to hold the tuft in place.
A problem associated with the yarn tuft holders of the prior art is that the position of the yarn tufts in the holder, and transfer of the tufts therefrom by the grippers, cannot always be accurately controlled. Unless all of the tufts are positioned correctly in the loaded tuft holder and all of the grippers can securely transport all of the tufts from the tuft holder to the weaving points, the grippers may transfer some of the tufts to the weaving points incorrectly or fail to transfer them at all. This can lead to a requirement for longer tufts so that these can be more readily gripped by the grippers resulting in increased yarn wastage. Any transfer failures can lead to downtime of the loom, and/or necessitate post production rectification of any flaws in the carpet.
There is therefore a need in the art for an improved yarn tuft holder which alleviates the above problems.
According to a first aspect of the invention there is provided a yarn tuft holder for holding yarn tufts received from one or more yarn tuft inserting devices prior to removal by grippers of a carpet manufacturing machine, the holder comprising a resiliently deformable comb portion for receiving and holding yarn tufts, and a rigid comb portion disposed adjacent the resiliently deformable comb portion and for guiding grippers configured to remove yarn tufts held by the resiliently deformable comb portion. The invention provides improved control over the yarn tufts and the grippers leading to more reliable transfer of the yarn tufts to their weaving positions.
According to a second aspect of the invention there is provided a carpet manufacturing machine, comprising one or more yarn tuft holders in accordance with the first aspect. The carpet manufacturing machine may be similar to that described in WO 95/31594 or WO 02/00978, or any other suitable carpet manufacturing machine.
According to a third aspect of the invention there is provided a method for making carpet using a carpet manufacturing machine in accordance with the second aspect, comprising the steps of inserting yarn tufts into the resiliently deformable comb portion of one of the yarn tuft holders, guiding grippers using the rigid comb portion of said yarn tuft holder during removal of said yarn tufts by said grippers from said yarn tuft holder, and securing the removed yarn tufts into a backing.
In a preferred exemplary embodiment the resiliently deformable comb portion is of plastics material and formed having an array of teeth separated by slots. The teeth are shaped so as to define a stem portion and a head portion wider than the stem portion. The length and form of the stem defines the degree of flexibility of each tooth; a shorter, fatter stem producing a stiffer tooth. The head portion has a cut out for forming a cavity with an adjacent tooth, the cavity being adapted for receiving and holding a yarn tuft at a yarn tuft retention site. A dimension of the cavity is suitable for firmly holding the yarn tuft and yet enabling removal of the yarn tuft by the grippers easily. A lip extends from the top of the cavity towards the adjacent tooth to help keep the tuft in position. The head portion is tapered towards the top so that the tooth does not undergo a large deflection as the yarn tuft is loaded and as the inserting device is retracted. This feature is particularly beneficial where the yarn tuft holder of the invention is implemented in a loom where the yarn tuft inserting device(s) continuously traverse across the length of the stationary yarn tuft holder loading tufts therein.
In alternative exemplary embodiments, the geometry of the tooth form can be altered to allow the plastics comb to accommodate a number of operational variables such as speed of loading of the tufts, speed of traverse of the inserting device(s), form of the yarn tuft inserting device(s), and yarn tuft thickness. Thicker yarn tufts may be accommodated by increasing the cavity dimension. It may also be of benefit to include a platform extending from the bottom of the cavity towards an adjacent tooth. The platform may extend to beneath the head portion of the adjacent tooth. A serrated edge on at least one side wall of the cavity could be used to provide additional grip on the yarn tuft. A channel may be formed extending longitudinally across the resiliently deformable comb portion to define two laterally spaced combs that can retain each of the yarn tufts at two spaced positions along the length of each tuft.
In the preferred or alternative exemplary embodiments, slots formed in the rigid comb portion align with the slots formed in the resiliently deformable comb portion. A plurality of the resiliently deformable comb portions are removably connected to the rigid comb portion. Manufacturing the resiliently deformable comb portions as shorter sections than the rigid comb portion provides the benefits of reduced tooling costs, small pitch variations due to material shrinkage in the case that the sections are moulded, and also makes replacement of the sections easier as they become worn or damaged. Each of the plurality of resiliently deformable comb portions is aligned with the rigid comb portion by means of mating projections and recesses to aid pitch control. The number of yarn tufts held in each resiliently deformable comb portion can be 20, but any suitable number may be used, from about 5 to 500, for example 25 or 30.
Examples of the present invention will now be described in detail with reference to the accompanying drawings, in which:
The carpet weaving loom shown in
The loom includes a yarn tuft transfer system 10 including five yarn tuft holders 11 mounted on a belt 12. The belt 12 is arranged for movement around a closed loop to sequentially present each of the yarn tuft holders 11 to the yarn tuft inserting devices 2. A set of grippers 13 are configured to unload the lowermost yarn tuft holder 11 that is filled with tufts and transfer these to their respective weaving point 15.
In the preferred embodiment shown with reference to
The grippers 13 move upwards, counter-clockwise as seen in
The yarn tuft holder 11 is shown in detail in
The number of tuft retention sites 14 in each resiliently deformable comb portion is preferably 20, but could easily be adapted to 25, 30 or any other suitable number. Manufacturing the resiliently deformable comb portion in small sections provides the benefits of reduced tooling costs, smaller pitch variations due to material shrinkage if the part is moulded, and easy replacement when the part is worn or damaged. The form of the teeth 21 of the resiliently deformable comb portions 17 will now be described with reference to
Whilst the preferred embodiment of the invention has been described with reference to a gripper Axminster loom similar to that described in WO 02/00978, it will be appreciated that the yarn tuft holder of the invention is equally suitable for the loom described in WO 95/31594, where the yarn tuft holder moves relative to stationary tuft inserting devices. The design of the yarn tuft holder in accordance with the invention allows continuous movement between the tuft inserting device 2 and the yarn tuft holder 11, although this movement may be intermittent. Alternatively, the yarn tuft holder 11 maybe stationary and hold yarn tufts inserted by the yarn tuft inserting devices, prior to removal by grippers for a weaving operation.
A second, alternative exemplary embodiment of the yarn tuft holder will now be described with reference to
A third embodiment of the invention will now be described with reference to
Number | Date | Country | Kind |
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0707800.9 | Apr 2007 | GB | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/GB08/01416 | 4/22/2008 | WO | 00 | 2/18/2010 |