WO2000041585A1

WO2000041585A1 - Shoe stiffener, material and method for making same and method of incorporating a shoe stiffener into a shoe upper component

Info

Publication number: WO2000041585A1
Application number: PCT/GB1999/004103
Authority: WO
Inventors: Brian Arnold
Original assignee: Texon Uk Limited; Texon Materiales, S.L.
Priority date: 1999-01-09
Filing date: 1999-12-06
Publication date: 2000-07-20
Also published as: DE69905951D1; PL348767A1; AU1577300A; KR20010089788A; ATE234030T1; CN1333658A; CN1136799C; ID29032A; ES2192871T3; EP1148795B1; ZA200105018B; EP1148795A1; GB9900384D0; DE69905951T2

Abstract

A material suitable for use in the manufacture of a shoe stiffener consisting of a stiffener composition between two layers of sheet material, the stiffener composition including a polymeric material which is stiff at ambient temperature below 50°C and 90°C and has a melt viscosity measured at 100°C in the range from 100 Pas to 8000 Pas and wherein at least one of said layers of sheet materials has openings therein in a size range from, 0.15 mm2 to 5 mm2. A method of making the material is also described together with its use as a shoe stiffener. When incorporating the stiffener into a shoe, pressure exerted may cause some of the stiffener composition to flow through the openings and bond the stiffener to an adjacent shoe upper component.

Description

SHOE STIFFENER, MATERIAL AND METHOD FOR MAKING

SAME AND METHOD OF INCORPORATING A SHOE

STIFFENER INTO A SHOE UPPER COMPONENT

Techical Field

This invention is concerned with a shoe stiffener, a sheet material suitable for use in the manufacture of same, a method of making such a material and a method of incorporating a shoe stiffener into a shoe upper.

Background Art

The term "shoe" where used herein is to be understood as denoting outer footwear generally whether ready for wear or in the course of manufacture.

It is well known to incorporate shoe stiffeners in shoes to retain the shoe in a desired shape. For example shoe stiffeners are commonly included in the toe region of a shoe upper frequently referred to as "toe puffs" and in the heel end region of a shoe upper, commonly referred to as heel end stiffeners or counters.

A variety of materials have been proposed for providing such shoe stiffeners and commonly comprising polymeric materials which can be rendered relatively soft and pliable so that the shoe stiffener can be readily shaped to a desired shape but which can thereafter become relatively rigid and stiff thus to provide a shape retaining means for the shoe upper. Such polymeric materials have been applied in a variety of ways including impregnation of a suitable polymeric material into a textile fabric (woven or non- woven), the impregnated fabric being softenable by heating and bonded to the shoe upper by application of a suitable adhesive layer (such stiffeners are supplied by the applicant company under the Registered Trade Mark "Tufflex" and "Formo"). It has also been proposed to apply polymeric material directly to a shoe upper component by coating the polymeric material onto the component using a suitable applicator. It has further been proposed to provide shoe stiffeners consisting of a sheet of thermoplastic polymeric material which can be rendered pliable and adhesive by heating to an appropriate temperature: such a shoe stiffener is described in European Patent No. 0183912.

For the manufacture of certain types of shoe it would be desirable to provide a shoe stiffener which can be first heated to a temperature sufficient that the stiffener becomes pliable and adhesive but which can nevertheless be manipulated comfortably by hand without sticking to or burning the fingers of an operator but such a stiffener has not been satisfactorily provided heretofore.

It is one of the various objects of the present invention to provide an improved material suitable for use in the manufacture of a shoe stiffener.

Another object of the present invention is to provide an improved shoe stiffener.

Yet a further object of the present invention is to provide an improved method of incorporating a shoe stiffener with a shoe upper component.

Disclosure of Invention In one aspect the invention may be considered to provide a material suitable for use in the manufacture of a shoe stiffener consisting of a layer of a stiffener composition between two layers of sheet material the stiffener composition including a polymeric material which is stiff at ambient temperature and is pliable, adhesive and flowable under pressure at an elevated temperature and at least one of the layers of sheet material having openings therein of such a size that when the stiffener composition is heated to said elevated temperature the stiffener can be readily manipulated and positioned in a shoe upper and thereafter subjected to pressure to cause sufficient of the polymeric material to flow through the openings in the sheet material and adhere to adjacent shoe upper materials whereby to bond the stiffener in the shoe.

In another aspect the invention may be considered to provide a material suitable for use in the manufacture of a shoe stiffener consisting of a stiffener composition between two layers of sheet material, the stiffener composition including a polymeric material which is stiff at ambient temperature below 50 °C but is pliable and adhesive at an elevated temperature between 50 °C and 90 °C and has a melt viscosity measured at 100°C in the range from 100 Pas to 10,000 Pas and wherein at least one of said layers of sheet material has openings therein in a size range from 0.15 mm² to 5 mm².

Size ranges where referred to herein refer to linear dimensions; thus the areas of the openings in said layer of sheet material range, approximately between about 0.02 sq mm and 25 sq mm.

In a preferred material in accordance with the invention the elevated temperature is in the range from 60 °C to 80 °C, more preferably about 75°C to 80°C.

Preferably the melt viscosity of the polymeric material in a material according to the invention at 100° C is in the range from 900 Pas to 2500 Pas, more preferably about 1500 Pas. The viscosity of the stiffener composition is preferably not more than 10,000 PaS. Viscosity is conveniently measured by a capillary rheometer at low shear on an instrument such as a Rosand capillary rheometer.

In a preferred material in accordance with the invention the openings in said layer of sheet material have a size range from 0.3 mm² to 1.5 mm² (opening areas between about 0.09 sq. mm and 2.25 sq mm).

In one embodiment the size range is about 0.5 mm² (area about 0.25 sq mm); in another embodiment the size of the openings is about 0.4 mm x 0.95 mm (area about 0.38 sq. mm). The sizes of the openings can be measured in any convenient way. For example, for rectangular openings in a woven scrim, the length and breadth of a number of openings can be determined under a microscope and an average taken to calculate an average opening area. More irregular openings eg. in an apertured non- woven fabric can be measured by producing an enlarged image of the fabric, using a planimeter to measure the area and correcting to take account of the magnification.

Preferably a sheet material in accordance with the invention has a thickness from 0.4mm up to 2.00mm, more preferably from 0.7mm up to 1.2mm.

Whereas the layer of stiffener composition of a material in accordance with the invention may consist solely of a polymeric material, the stiffener composition preferably comprises a mixture of a polymeric material and a paniculate filler. The use of a suitable filler can enhance the rigidity of the stiffener composition when cold. Suitably, the stiffener composition in a material in accordance with the invention comprises between 85% and 30% by weight of polymeric material and 15% and 70% by weight of particulate filler; however, preferably the filler content does not exceed 50%. The polymeric material may, if desired, comprise a mixture of different polymers and the filler may comprise a mixture of particulate fillers.

When a particulate filler is used in a stiffener composition of a material in accordance with the invention, the particle size of the filler should be in a suitable size range, preferably between 50 microns and 500 microns and more preferably between 100 microns and 400 microns.

Polymeric materials are often mixed with fillers and many of the fillers which are commonly used for compounding with polymeric materials may be suitable for use in a stiffener composition in a material in accordance with the invention. Amongst the most suitable materials are mica and talc.

The layers of sheet material between which the stiffener composition is carried may be provided by any suitable sheet material. Amongst suitable materials are woven or knitted fabrics, and apertured non- woven fabric.

The sheet material chosen for use in the manufacture of material in accordance with the invention will depend on the viscosity of the polymeric material and the size of the openings in the sheet material. It will be appreciated that if the operiings are too small the polymeric material will not be able to flow through the openings to bond to the adjacent shoe upper component whereas if the openings are too large this can lead to difficulties when handling the hot shoe stiffener materials. A textile fabric of a type commonly referred to as scrim may be suitable. Some melt bonded fabrics may also be suitable, for example the fabric supplied under the trade name "Reemay". Warp-knitted fabrics may also be particularly useful. Textile fibres which may be used in a suitable textile fabric include cotton, cotton/polyester blends, polyester and nylon fibres.

Preferred polymeric materials suitable for use in stiffener composition of materials in accordance with the invention include polycaprolactone and poly(tetramethylene-adipate) .

In another aspect the invention may be considered to provide a shoe stiffener comprising a material in accordance with the invention.

In yet another aspect the invention may be considered to provide a method of making a material in accordance with the invention, the method comprising:

(a) procuring two layers of sheet material, at least one having openings therein

(b) introducing a layer of a stiffener composition between the layers of sheet material and

(c) treating the layers to cause them to adhere to one another without the stiffener composition leaking through the openings.

Preferably, in a method as set out in the last preceding paragraph, the layer of stiffener composition is introduced in step (b) by extruding molten stiffener composition and, in step (c), the layers are treated by pressing and cooling.

In yet another aspect the invention may be considered to provide a method of incorporating a shoe stiffener with a shoe upper component comprising positioning the stiffener with one of said layers of sheet material with openings therein in face-to-face contact with the upper component, before or after said positioning heating the stiffener to such an extent that the polymeric material becomes pliable and flowable under pressure, and whilst the polymeric material is still flowable pressing the stiffener against the upper component under pressure sufficient to cause sufficient of the polymeric material to be expelled from the layer of stiffener composition through said openings, shaping the upper component and contacting stiffener to a desired shape and cooling the polymeric material or allowing it to cool, whereby the stiffener is bonded to the upper component by the expelled polymeric material and provides stiffening of the upper component.

There now follow detailed descriptions to be read with reference to the accompanying drawing of shoe stiffeners and sheet materials embodying the invention, a method of making the stiffeners and a method of incorporating them into a shoe, also embodying the invention. It will be realised that the materials, stiffeners and methods have been selected for description to illustrate the invention by way of example.

Brief Decription of Drawing

In the accompanying drawing :- Figure 1 is a diagrammatic view showing the incorporation of a shoe stiffener embodying the invention into a shoe upper.

Modes for Carrying Out the Invention

In Figure 1 an illustrative shoe stiffener 10 embodying the invention is shown positioned between two shoe upper components, namely an outer integument 12 of the upper and a lining material 14. The illustrative shoe stiffener 10 is a shoe counter and the counter 10 is within a counter pocket formed by stitching the periphery of the lining material 14 to the outer integument 12 of the upper in known manner.

The outer integument 12 may be any suitable material, for example leather. The lining material 14 may be a suitable known lining material, for example the non-woven impregnated textile fibre based material supplied by the applicant company under the trade mark Aquiline.

The illustrative shoe stiffener is cut, in known manner from a sheet of material embodying the invention in its material aspects.

The illustrative shoe stiffeners comprise a first layer 16 of sheet material and a second layer 18 of sheet material. Between the layers 16, 18 is a layer 22 of a stiffener composition which includes a polymeric material that is stiff at ambient temperature and is pliable, adhesive and flowable under pressure at an elevated temperature. The polymer is polycaprolactone which becomes pliable adhesive and flowable under pressure at a temperature of about 80 °C. The stiffener composition further comprises a mica particulate filler having a particle size in the range of 0.05mm to 0.25mm which is present in an amount of about 25% by weight, the polycaprolactone being present in an amount of about 75 % by weight.

In the first illustrative stiffener both layers 16, 18 are cotton textile fibre woven scrims having openings 20 therein each opening having an area of about 0.5 mm² and being generally rectangular in shape.

A second illustrative stiffener, otherwise similar to the first illustrative stiffener, uses sheet material for the layers 16, 18 which is a woven polyester scrim having openings 20 which are about 0.4 mm x 0.95 mm (area about 0.38 sq mm).

The illustrative materials are made by hot-melt extruding the layer 22 of stiffener composition between the two layers 16, 18 of sheet material and rapidly cooling the laminated material by passing it through the nip between a pair of cooled calendar rolls of a calendar roll stack about which the laminated material is passed. The pressure applied by the rolls is relatively light - sufficient to cause the outer layers 16, 18 to bond to the stiffener composition 22 but not sufficient for the material of the stiffener composition 22 to be expelled through the openings 20 in the layers 16, 18.

The thus made laminated stiffener material is rolled onto a reel. When it is wished to make illustrative shoe stiffeners, the laminated material is unrolled from the reel and stiffeners are cut from the laminated material using cutting knives in a manner which is generally well known to those skilled in the art.

When it is wished to incorporate one of the illustrative shoe counters into the heel end region of a shoe, a counter pocket is first made on the shoe upper by stitching the lining material 14 to the outer integument 12 of the shoe upper to provide a pocket into which the illustrative shoe counter may be placed when it has been activated.

In carrying out the illustrative method, the counter 10 is first heated to an elevated temperature sufficiently high that the stiffener composition 22 becomes pliable, tacky and flowable under pressure. A suitable temperature is about 80-85 °C. The stiffener composition does not flow through the holes 20 until it is subjected to significant pressure and the fabric layers 16, 18 provide a barrier so that the shoe counter 10 can be handled comfortably by an operator when hot; the relatively low thermal conductivity of the fabric also assists in this respect.

In this hot and pliable condition the shoe counter 10 is introduced into the counter pocket between the outer integument 12 and the lining material 14. The shoe upper, including the counter, is then subjected to a lasting operation which shapes the shoe upper around a last and the upper is retained in this shaped condition until the stiffener composition has cooled below its activation temperature and solidified to a rigid condition.

During the lasting operation considerable pressure is exerted on the shoe upper and the exerted pressure is sufficient to cause sufficient of the polymeric material in the stiffener composition 22 to be expelled through the openings 20 in the layers 16, 18. This expelled material 24 is forced firmly into engagement with the adjacent one of the layers 16, 18 whilst still in a tacky adhesive condition and may spread sideways from the openings 20 between the layers 16, 18 and the adjacent one of the upper components 12, 14. When the stiffener composition is cooled, the material 24 which has been expelled through the openings 20 bonds the counter 10 firmly to the upper components 12, 14 providing a relatively rigid and shape-retaining back part to the shoe upper.

Those skilled in the art will be aware that it is common practice to skive the margins of shoe counters to provide a tapering (or skived) edge portion which permits the counter to blend with the upper component without uncomfortable and unsightly ridges in the shoe upper.

The illustrative shoe counters as well as being readily mouldable and self- adhesive have a relatively high modulus so that the counter material is relatively thin (for a particular stiffness) and thus this, in some cases, may allow the illustrative counters to be used without skiving. This may be assisted by the relatively flowable nature of the stiffener composition 22 under lasting pressures which will tend to flow away from the edge portions (at which pressures may tend to be greatest) and towards a central region of the counter where greatest stiffness is required.

The layers 16, 18 of the illustrative counters 10 also provide reinforcement of the counter against tensile forces which, in the absence of the layers 16, 18, may be resisted less adequately.

Whereas in carrying out the illustrative method of incorporating the illustrative counters 10 in a shoe, the shoe counter 10 is first heated and activated so that the stiffener composition 22 is in a pliable tacky and flowable condition before introduction into the counter pocket, the illustrative counters 10, in carrying out another method of incorporating the counters in a shoe in accordance with the invention, may be introduced into a counter pocket whilst cold and the whole shoe heated until the stiffener composition 22 reaches activation temperature, the shoe thereafter being lasted.

Whereas the illustrative shoe counters 10 have layers 16, 18 on both sides which have openings 20 therein, in the manufacture of a counter in accordance with the invention, only one of the layers 16, 18 may be provided with openings and the other layer may be substantially continuous. This continuous layer may be a shoe lining material of a type known to those skilled in the art, for example Aquiline mentioned previously. In that case the stiffener would probably not be handled hot and it would be necessary to temporarily attach the counter to the shoe upper by other means, for example stitching or a tacking adhesive with the layer having the openings 20 adjacent the outer integument of the shoe upper, either before or after activation of the stiffener composition, and then the shoe lasted as described previously.

Whereas the preferred shoe stiffener materials are made by extruding the stiffener composition between two layers 16, 18, it will be appreciated that the stiffener composition may be introduced in other ways, for example a pre-extruded sheet may be positioned between two fabric layers and laminated thereto by applying slight heat and pressure (sufficient to adhere the fabric layers to the stiffener composition but not sufficiently great to cause the stiffener composition to flow through openings in the fabric). Other methods may also be suitable.

Claims

1. A material suitable for use in the manufacture of a shoe stiffener consisting of a layer of a stiffener composition between two layers of sheet material the stiffener composition including a polymeric material which is stiff at ambient temperature and is pliable, adhesive and flowable under pressure at an elevated temperature and at least one of the layers of sheet material having openings therein of such a size that when the stiffener composition is heated to said elevated temperature the stiffener can be readily manipulated and positioned in a shoe upper and thereafter subjected to pressure to cause sufficient of the polymeric material to flow through the openings in the sheet material and adhere to adjacent shoe upper materials whereby to bond the stiffener in the shoe.

2. A material according to claim 1 wherein said elevated temperature is between 50 °C and 90°C, the openings have a size range from 0.15 mm² to 5 mm² and the melt viscosity of the polymeric material measured at 100°C is in the range from 100 PAS to 10,000 Pas.

3. A material suitable for use in the manufacture of a shoe stiffener consisting of a stiffener composition between two layers of sheet material, the stiffener composition including a polymeric material which is stiff at ambient temperature below 50 °C but is pliable and adhesive at an elevated temperature between 50 °C and 90 °C and has a melt viscosity measured at 100°C in the range from 100 Pas to 10,000 Pas and wherein at least one of said layers of sheet material has openings therein in a size range from 0.15 mm² to 5 mm².

4. A material according to either one of claims 2 and 3 wherein the elevated temperature is in the range from 60 °C to 80 °C.

5. A material according to any one of claims 2 to 4 wherein the melt viscosity of the polymeric material at 100° C is in the range from 900 Pas to 2500 Pas.

6. A material according to any one of claims 2 to 5 wherein the openings have a size range from 0.3 mm² to 1.5 mm².

7. A material according to any one of the preceding claims wherein the shoe stiffener material is from 0.4mm up to 2.00mm in thickness.

8. A material according to any one of the preceding claims wherein the stiffener composition comprises between 85% and 30% by weight of said polymeric material and 15% and 70% by weight of particulate filler.

9. A material according to claim 8 wherein the particulate filler has a size between 50 microns and 500 microns.

10. A material according to claim 9 wherein the size of the particulate filler is between 100 microns and 400 microns.

11. A shoe material according to any one of claims 8 to 10 wherein the filler is mica.

12. A material according to any one of claims 8 to 10 wherein the filler is talc.

13. A material according to any one of the preceding claims wherein the polymeric material comprises polycaprolactone.

14. A material according to any one of claims 1 to 12 wherein the polymeric material comprises poly(tetramethylene-adipate).

15. A material according to any one of the preceding claims wherein at least one of said layers of sheet material is a woven fabric.

16. A material according to any one of the preceding claims wherein at least one of said layers of sheet material is a knitted fabric.

17. A material according to any one of the preceding claims wherein at least one of said layers of sheet material is an apertured non- woven fabric.

18. A shoe stiffener comprising a material in accordance with any one of the preceding claims.

19. A method of making a material according to any one of the claims 1 to 17 comprising (a) procuring two layers of sheet material, at least one having openings therein

20. A method according to claim 19 wherein the layer of stiffener composition is introduced in step (b) by extruding it and in step (c) the layers are treated by pressing and cooling.

21. A method of incorporating a shoe stiffener according to claim 18 with a shoe upper component comprising positioning the stiffener with one of said layers of sheet material with openings therein in face-to-face contact with the upper component, before or after said positiomng heating the stiffener to such an extent that the polymeric material becomes pliable and flowable under pressure, and whilst the polymeric material is still flowable pressing the stiffener against the upper component under pressure sufficient to cause sufficient of the polymeric material to be expelled from the layer of stiffener composition through said openings, shaping the upper component and contacting stiffener to a desired shape and cooling the polymeric material or allowing it to cool, whereby the stiffener is bonded to the upper component by the expelled polymeric material and provides stiffening of the upper component.