COMPRESSION ARTICLE

Abstract

A compression article and method for its production on a flat-bed knitting machine are provided for providing an improved fit to a body part. In the compression article, respectively the number of stitches per stitch row is matched to the radial circumference of the body part to be treated by the compression article. The compression article has a plurality of points which are distributed over its circumference and at which, in a stitch row, at least one of a stitch increase and a stitch reduction is realized. The number of stitches in the wale direction varies over the circumference of the compression article and is matched, in the longitudinal direction of the body part, to the shape of the body part to be treated.

Description

TECHNICAL FIELD

This application relates to a compression article, which is produced on a knitting machine.

BACKGROUND

For the avoidance or treatment of edemas, varicose veins, venous insufficiency, as well as after vein surgery procedures, such compression articles in the form of compression stockings, compression gloves, foot caps and the like are used. Other elastic articles include joint bandages and also burn bandages. In sport, support bandages are used to protect from injuries and partially also to enhance performance.

Due to the good elastic characteristics, these articles are primarily produced as knitted fabrics, whereby production on a flat-bed knitting machine is the rule. The article is produced as a flat knitted fabric, the longitudinal margins of which are subsequently sewn together, so that the desired three-dimensional article is obtained. The flat knitted fabric is, in regions in which the body part to be treated has a larger circumference, knitted with more stitches per row than in regions of a smaller circumference. The stitch-increases and the stitch-reductions are performed at the margins of the flat knitted fabric. This means that, after the closure of the longitudinal seam of the flat knitted fabric, this longitudinal seam has a curved path, while the opposite circumferential region of the compression article runs completely straight in the longitudinal direction. The shape of the compression article thus only imperfectly replicates the anatomy of the body part. The longitudinal axes of the compression article and of the body part do not coincide.

In patients, bulges and dimensional changes of the relevant body part are however possible at all points on the circumference. A lower leg of such a patient may not only have muscle-related circumferential widening in the calf region but also bulges in the shinbone region. The known available compression articles, even given a precise measurement of the body part and a customized production of the compression article, are not sufficiently well fitting. Moreover, the currently used, above-described flat knitting technology is only partially suitable for the production of products of this type.

Therefore, it would be desirable to provide compression articles having an improved fit.

SUMMARY

According to embodiments of the present invention, the technical objects identified above are achieved by a compression article which is produced from a knitted fabric created on a knitting machine, in particular a flat-bed knitting machine, and in which respectively the number of stitches per stitch row is matched to the radial circumference of the body part to be treated by the compression article. The compression article is characterized in that, in order to be matched in the circumferential direction to the shape of the body part to be treated, it has a plurality of points which are distributed over its circumference and at which, in a stitch row, a stitch increase and/or a stitch reduction is carried out, and in that, moreover, the number of stitches in the wale direction varies over the circumference of the compression article. The compression article is thus further matched longitudinally to the shape of the body part to be treated.

In such embodiments, the compression article according to the invention is distinguished by the fact that stitch increases and/or stitch reductions are realized at those points on the circumference at which the body part to be supported likewise undergoes a change in its circumference and no longer just in the region of the longitudinal seam of the article. Moreover, the fit in the longitudinal direction is improved by virtue of the fact that also the number of stitches in the wale direction of the compression article varies over the circumference thereof. Thus, a compression stocking, for instance, can have more stitch rows in the calf region than in the shinbone region. Hence, not only can a better fit of the compression article be obtained but also a more even distribution of the compression pressure over the body part. The three-dimensionally knitted article therefore has, in addition to an improved fit, also an improved effectiveness.

In one embodiment, the compression article can be knitted such that its central longitudinal axis conforms to the central longitudinal axis of the body part to be treated. Particularly uniform pressure conditions over the circumference of the body part can thereby be achieved.

Furthermore, it is an advantage if the compression article is produced as a three-dimensional flat or circular knitted fabric. As a result of stitch accumulation in a mid-region of the knitted fabric, a three-dimensional structure is formed. The compression article can, however, also be produced as a seamless tubular knitted fabric and hence acquire a three-dimensional shape. The step of subsequently sewing together the margins of the knitted fabric can then be dispensed with.

In another embodiment, the compression article can additionally be produced using gusseting techniques. With gusseting techniques in conjunction with stitch increase and/or stitch decrease distributed over the circumference, almost any chosen three-dimensional structures can be produced.

In a preferred embodiment, the compression article can be formed of a plurality of strip-shaped segments, which, in the circumferential direction of the compression article, are separated from one another by zones comprising stitch increases and/or stitch decreases.

Depending on the number of segments, compression articles in which a stitch increase and/or a stitch reduction is present at a plurality of points on the circumference are thus able to be produced in a technically relatively simple manner. The side margins of the segments can be parallel or non-parallel to one another.

In further embodiments, at least some of the segments can have a different number of stitch rows or a different length of the wales (equal to number of stitches per wale) in order to be able to also closely match the compression article to the contour of the body part in its longitudinal direction. Preferably, the division of the knitted fabric into segments, the stitch count per stitch row in the segments and the number of stitch rows per segment can accordingly be determined from data acquired in the measurement of the body part to be supported.

In some embodiments, the compression article can be produced at least partially using elastic yarns, as known per se. The elastic threads can here form the ground weave of the article and/or be integrated as weft and/or warp threads.

In certain embodiments, further advantages are obtained if the compression pressure exerted on the body part by the compression article decreases from the distal end of the article toward the proximal end. This provision aids the drainage of lymph fluid toward the heart and hence promotes the excretion of excess fluid from the body.

In one embodiment, the compression article can be produced from a double-faced or double-layered knitted fabric. The knitted fabric can be produced, for instance, from an R-R binding. Or it can have a plurality of R-L layers, which are connected to one another full-face or at certain points.

In another embodiment, a first method is provided for producing a compression article on a knitting machine, in particular a flat-bed knitting machine. The method includes the steps of:

• • measurement of the body part to be supported by the compression article at individual measuring points;
  • selection of a base pattern for the compression article from a catalogue, the measurements of which best conform to the measured body part;
  • adjustment of the stitch count of the stitch rows and of the number of stitches in the individual wales of the base pattern in accordance with the measurements of the body part between the measuring points; and
  • knitting of the revised base pattern on a knitting machine, in particular a flat-bed knitting machine.

This method is suitable for the production of compression articles with very good fit. It is advantageous that the revised base pattern is produced by calculating a plurality of segments, wherein the segments are respectively separated from one another by zones in which the stitch count of the stitch rows of the knitted fabric is reduced and/or increased. The number of segments can be predefined or freely chosen.

According to another embodiment, an alternative method for producing a compression article on a knitting machine, in particular a flat-bed knitting machine, includes the steps of:

• • measurement of the body part to be supported by the compression article, by scanning of the body part;
  • calculation of the necessary number of stitches per stitch row in accordance with the measured circumference of the body part in that region of the body part that is covered by the stitch row;
  • calculation of those points within each stitch row at which a stitch increase and/or decrease in comparison to the preceding stitch row is necessary, so that the central longitudinal axis of the compression knitted fabric conforms to the central longitudinal axis of the body part;
  • calculation of the necessary number of stitches per wale of the compression article for covering the body part in the longitudinal direction thereof; and
  • knitting of the compression article on a flat-bed knitting machine, using the calculated stitch counts per stitch row, the calculated points of a stitch increase and/or decrease in the stitch rows, and the calculated necessary numbers of stitches per wale.

This method may require the full scanning of the body part to be supported. From this measurement data, the necessary stitch count and/or gusset points for the optimal fit of the compression article are then calculated row by row. A stitch increase or a stitch reduction can now be provided at each point within a stitch row, not just at the margins of segments. This more complex method is suitable for the production of compression articles for patients having complaints for which a perfect fit and an optimal compression pressure distribution are desired.

BRIEF DESCRIPTION OF THE DRAWINGS

The features and advantages of the invention will be appreciated upon reference to the following drawings. The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate one or more embodiments of the invention and, together with the general description given above and the detailed description given below, explain the one or more embodiments of the invention.

FIG. 1 is a top view of segments of a base pattern for a compression article.

FIG. 2 is a top view of the compression article from FIG. 1 after completion on a flat-bed knitting machine.

DETAILED DESCRIPTION

In the illustrated example, the compression article 10 shown in FIGS. 1 and 2 is produced on a flat-bed knitting machine and is divided in the design stage into four segments 11, 12, 13 and 14, which between them define zones 15-18 in which a stitch increase and/or a stitch reduction is carried out. The four segments 11 to 14 are knitted with common thread guides, so that the finished knitted fabric shown in FIG. 2 is obtained. The representation in FIG. 1 serves, however, to better illustrate the production method for the compression article 10 (also referred to as the compression knitted fabric herein).

Each of the segments 11 to 14 is adapted in the zones 15 to 18 at the longitudinal margins of the segments 11 to 14 with respect to the stitch count in each stitch row such that the finished knitted compression article 10 is optimally matched in its shape to a body part to be supported. To this end, measurement data of the body part is first used to select a base pattern for the compression article 10 from a set of available patterns which already approximates to the desired shape of the compression article 10. The patterns of the segments 11 to 14 of this base pattern are subsequently revised such that the fit of the compression article 10 composed of the segments is optimally matched to the shape of the body part. This revision is made by adapting the stitch count per stitch row in the zones 15 to 18 at the longitudinal margins of the segments 11 to 14 and by providing gusseting zones 19 at least in some of the segments 11 to 14. Also the length of the wales of the segments 11 to 14 is varied in accordance with the body part shape. There is thus formed the three-dimensional compression article 10 shown in FIG. 2, which has merely to be closed by a longitudinal seam.

The embodiments described above are descriptions of preferred embodiments of the present invention, and are not intended to limit the scope of the present invention. Various variations and modifications can be made by those of ordinary skill in the art, without departing from the design and scope of the present invention. The variations and modifications should all fall within the claimed scope defined by the claims of the present invention.

Claims

1. A compression article, which is produced from a knitted fabric created on a knitting machine, and in which respectively a number of stitches per stitch row is matched to a radial circumference of a body part to be treated by the compression article, wherein in order to match in a circumferential direction a shape of the body part to be treated, the compression article has a plurality of points which are distributed over a circumference thereof and at which, in a stitch row, at least one of a stitch increase and a stitch reduction is realized, and in that, moreover, the number of stitches in a wale direction varies over the circumference of the compression article and the compression article is additionally matched, in a longitudinal direction of the body part, to the shape of the body part to be treated.

2. The compression article of claim 1, wherein a central longitudinal axis thereof conforms to a central longitudinal axis of the body part to be treated.

3. The compression article of claim 1, wherein the compression article is produced as a three-dimensional flat or circular knitted fabric.

4. The compression article of claim 1, wherein the compression article is produced as a seamless tubular knitted fabric.

5. The compression article of claim 1, wherein the compression article is produced using gusseting techniques.

6. The compression article of claim 1, wherein the compression article is formed of a plurality of strip-shaped segments, which, in the circumferential direction of the compression article, are separated from one another by zones comprising at least one of a stitch increase and a stitch decrease.

7. The compression article of claim 6, wherein side margins of the segments are parallel to one another.

8. The compression article of claim 6, wherein at least some of the segments have a different number of stitch rows.

9. The compression article of claim 6, wherein in a division of the knitted fabric into the segments, a stitch count per stitch row in the segments, and a number of stitch rows per segment is determined from data acquired in a measurement of the body part to be supported.

10. The compression article of claim 1, wherein the compression article is produced at least partially using elastic yarns.

11. The compression article of claim 10, wherein the elastic yarns forma ground weave of the knitted fabric and/or are integrated as at least one of weft and warp threads into the knitted fabric.

12. The compression article of claim 1, wherein a compression pressure exerted on the body part decreases from a distal end of the compression article toward a proximal end.

13. The compression article of claim 1, wherein the compression article is produced from a double-layered or double-faced knitted fabric.

14. A method for producing a compression article on a knitting machine, comprising: measuring a body part to be supported by the compression article at individual measuring points;selecting a base pattern for the compression article from a catalogue, measurements of which best conform to the body part;adjusting a stitch count of stitch rows and of a number of stitches in individual wales of the base pattern in accordance with the measurements of the body part in circumferential and longitudinal direction of the body part between the measuring points; andknitting of the revised base pattern on a flat-bed knitting machine.

15. The method of claim 14, wherein the revised base pattern is produced by calculating a plurality of segments, wherein the segments are respectively separated from one another by zones in which the stitch count of the stitch rows of the knitted fabric is at least one of reduced and increased.

16. A method for producing a compression article on a knitting machine, comprising: measuring a body part to be supported by the compression article, by scanning of the body part;calculating a necessary number of stitches per stitch row in accordance with a measured circumference of the body part in that region of the body part that is covered by the stitch row;calculating those points within each stitch row at which at least one of a stitch increase and decrease in comparison to a preceding stitch row is necessary, so that a central longitudinal axis of a compression knitted fabric conforms to a central longitudinal axis of the body part;calculating a necessary number of stitches per wale of the compression article for covering the body part in a longitudinal direction thereof; andknitting of the compression article on a flat-bed knitting machine, using the calculated stitch counts per stitch row, the calculated points of at least one of a stitch increase and decrease in the stitch rows, and the calculated necessary numbers of stitches per wale.

17. The compression article of claim 6, wherein side margins of the segments are non-parallel to one another.

18. The compression article of claim 2, wherein the compression article is produced as at least one of a three-dimensional flat or circular knitted fabric, or as a seamless tubular knitted fabric,wherein the compression article is produced using gusseting techniques,wherein the compression article is formed of a plurality of strip-shaped segments, which, in the circumferential direction of the compression article, are separated from one another by zones comprising at least one of a stitch increase and a stitch decrease,wherein side margins of the segments are parallel to one another,wherein at least some of the segments have a different number of stitch rows,wherein in a division of the knitted fabric into the segments, a stitch count per stitch row in the segments and a number of stitch rows per segment is determined from data acquired in a measurement of the body part to be supported,wherein the compression article is produced at least partially using elastic yarns,wherein the elastic yarns form a ground weave of the knitted fabric and/or are integrated as at least one of weft and warp threads into the knitted fabric,wherein a compression pressure exerted on the body part decreases from a distal end of the compression article toward a proximal end, andwherein the compression article is produced from a double-layered or double-faced knitted fabric.