This Application is a U.S. National Stage filing under §371 of International Application No. PCT/GB2006/003651, with an international filing date of 29 Sept. 2006, now pending, claiming priority from Great Britain Application No. GB 0519837.9, with a filing date of 29 Sept. 2005, now pending, and herein incorporated by reference.
This invention relates to knitting techniques, particularly techniques applied to garments in which yarns having particular characteristics must be individually incorporated. Such garments are particularly useful for monitoring physiological signals of the wearer, as sensors attached to or incorporated in the garment can be readily connected by such yarns to a terminal connector located elsewhere on the garment.
Such garments are referred to in a paper presented at the Medicom 2004 conference by R. Paradiso, G. Loriga and N. Taccini, entitled “Wearable Health Care System For Vital Signs Monitoring” and International Publication No. WO04/100784, the disclosures of which are incorporated by reference. The techniques disclosed herein can also be used with sensors of the type disclosed in our co-pending International Application also filed on 29 Sep. 2006 with priority from British Application No: GB05/19836.1, incorporated by reference.
Knitted garments are normally produced by knitting progressively in a direction parallel to axis of the garment that when the garment is worn, corresponds with that of the torso of the wearer. Thus, a simple upper body garment such as a vest or a t-shirt, would be knitted from the waist upwards, i.e. with wales parallel and courses orthogonal to the garment axis. Where yarns having particular characteristics must be incorporated in the garment such that they also extend parallel to the torso axis, a separate feeder must be provided for each yarn. This significantly complicates the knitting process.
The present invention is directed at a method of knitting a garment having a definable axis, with pathways defined by distinctive yarns extending substantially parallel to that axis. According to the invention, knitting is conducted with the knitted rows or courses being formed in a direction parallel to the axis, with the distinctive yarns being incorporated seriatim to define the pathways as the garment is formed. It will be appreciated that with the pathways being substantially parallel, each is concluded before a subsequent one must be commenced, which enables the same yarn feeder to be used for each pathway. Not only does this result in a substantial saving in equipment, but also in space.
If the garment to be formed using a method of the invention is an upper body garment with sleeves, then the method can accommodate extending at least one pathway along a sleeve, again using the same yarn feeder. With the knitting of the garment being conducted in courses parallel to the garment axis, the respective sleeve can be knitted before or after the main body of the garment. In this variant, the method will normally include including the step of knitting an additional wedge of fabric to orient each sleeve relative to the body of the garment.
The method of the present invention is well suited to electronic flat-bed knitting machines, using the techniques of C-knitting and tubular knitting. The use of the electronic flat-bed knitting technology enables the precision positioning of the knitted sensors and conductive pathways in the final product. The horizontal knitting technique, i.e. forming courses parallel to the axis of the garment, facilitates the manufacture of the garment with a minimum of yarn carriers independent of the number of sensors and conductive pathways. The horizontal knitting also facilitates the creation of uninterrupted (continuous) pathway from the waist line of the garment right up to the knitted sensor on a sleeve.
Electronic flat-bed knitting technology methods of the invention can be used to create seamless knitted garments with knitted sensors and conductive pathways for health monitoring purposes. A vest for example, might be created having knitted sensors and conductive pathways, with seams by using a circular knitting process to produce a 2-dimensional flat knitted fabric subsequently formed into a 3-dimensional shell shape.
As described above, the present invention has particular application in the manufacture of garments coupled to or including sensors for recording physiological signals. The yarns defining the pathways can be conductive, and the pathways thereby used to carry signals between sensors and a terminal located elsewhere on the garment. Such sensors maybe attached to or formed as an integral part of the garment as described in International Patent Publication No. WO04/100784 referred to above. The conductive pathways can extend to a boundary of the garment, where terminal connectors may be fitted. Each such connector may be disposed in a pocket formed in the garment.
The invention will be now described by way of example and with reference to the accompanying schematic drawings wherein:
The vest illustrated in
A garment of the kind illustrated in
In the method illustrated in
Conventional knitting yarn, elastomeric yarn and conductive yarns can be used in methods of the invention. For the main garment a suitable yarn has a core of 44f14 Nylon/156 Decitex Lycra (38.9\%) with inner (30.1%) and outer (31.0%) covers of 1/78f46 textured Nylon PA66DD. The preferred conductive yarn comprises silver. The invention can be advantageously practised using the C-knitting process which is a well used technique of flat-bed knitting. The C-knitting process particularly facilitates the formation of the waist section without any seams. The waist section can be adapted particularly to accommodate terminal connections, and edges of the garment can be bound off during the knitting process. However, the sleeves may be created with conductive pathways and knitted sensors by using the tubular knitting process, also a well known in flat-bed knitting. Typically tubular knitting processes can also be employed, with the method including the step of cutting the knitted structure to form waist and neck openings.
Number | Date | Country | Kind |
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0519837.9 | Sep 2005 | GB | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/GB2006/003651 | 9/29/2006 | WO | 00 | 9/3/2008 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2007/036746 | 4/5/2007 | WO | A |
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Number | Date | Country | |
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20090013728 A1 | Jan 2009 | US |