This patent application for industrial invention relates to a machining process for making an insole for footwear, especially designed to be used inside an article of footwear obtained using a machining method referred to as “GOOD YEAR”.
It is understood that the patent protection extends also to the new insole obtained using the new machining process according to the invention.
In the manufacture of a so-called “pre-assembled” article of footwear, according to a particular known and established technology called “GOOD YEAR”, the upper, before being coupled to its sole, is “pre-assembled” on an insole with the aid of a last.
More specifically, according to said technology, firstly the upper, i.e. that part of the shoe designed to enclose the foot at the sides and over the top, is prepared; such an upper is open at the bottom, i.e. around the entire periphery of the sole of the foot, since it is designed to be mounted on said insole, beneath which the true outsole is finally applied.
As previously stated, this operation of “pre-assembling” the upper on the insole is performed with the aid of a “last” practically consisting in a template that reproduces the three-dimensional shape of a foot, onto which is fitted the upper, the bottom flaps of which are then stretched, tucked under and fixed beneath the edges of said insole, previously centred and held in the centre of the sole of said “last”. Finally, the sole is glued and sewn beneath said insole.
According to the “GOOD YEAR” machining technique, the sole is wider than the overlying insole, so that the edge of the sole protrudes a few millimetres beyond the upper around its entire periphery, with the exception of the horseshoe arch that surrounds the heel of the shoe.
Fixed along this protruding edge of the sole is a finishing welt, which externally encloses the bottom flap of the upper, covering any machining artefacts along that entire peripheral band of the upper which is folded back and locked between the sole and the insole. In practice, said welt consists in a flexible strip of hide which is folded in an “L” shape, so that its vertical arm can be adhered and sewn to the outside of the bottom flaps of the upper, while its horizontal arm can be adhered and sewn just over the above-mentioned protruding edge of the sole.
Therefore, two rows of stitching run along the welt, one comprising stitches that pass through the upper from the outside inwards and which serve to fix the welt to the upper, the other comprising top-to-bottom stitches that serve to fix the welt to the underlying sole.
In the “GOOD YEAR” machining technique, it is to be said that the stitching that fixes the welt to the outside of the bottom flaps of the upper also serves to fix the upper beneath said insole, which is purposely arranged to provide an effective gripping area for the stitches of said stitching.
According to the older and more traditional technique, fixed beneath the edge of the insole is a flexible strip, usually of cardboard, having a “T” cross-section, the top arm of which is glued at the bottom to the insole, while its vertical arm constitutes that gripping area for the stitches of the above-mentioned stitching passing from the outside towards the inside through the inner edge of the welt, the bottom flaps of the upper and the vertical arm of said strip substantially bringing about the simultaneous fixing of the welt to the upper and to the insole.
Gluing of said flexible strip beneath the insole is usually achieved by means of a thermoplastic adhesive, which must be applied hot and which, once cooled, confers a certain rigidity to said strip which is already semi-rigid due to the fact that its vertical arm incorporates a stiffening core.
This all means that the flexibility of the insole is appreciably compromised by the presence of said strip applied around the entire bottom edge of said insole.
According to an alternative machining technique, a groove is made beneath the edge of the insole, which groove allows one flap of said edge to be insulated and folded downwards, against which the flaps of the upper and the inner edge of the welt are fixed by means of the usual single row of stitching.
Footwear obtained using the “GOOD YEAR” machining technique is characterised by its strength and reliability, as well as by its waterproofness, since the upper is protected at the bottom by a thick multi-layer base formed by the insole and the underlying sole, while laterally it is enclosed by said shielding welt which prevents water from entering between the sole and the insole.
On the other hand, however, footwear obtained using the “GOOD YEAR” machining technique is penalised by poor comfort due to its heaviness and rigidity, which does not allow it to bend softly in order to conform to the natural articulation of the foot during walking. Such a rigidity is basically due to the presence of said “pre-assembly” insole, the thickness of which, varying between three to five millimetres, is added to that of the sole resulting in a thick multi-layer base, which is further stiffened by the layer of adhesive used to glue the sole to the insole before proceeding to the operation of finally sewing the welt to the sole.
On the other hand, said insole is also rigid by itself and somewhat inflexible, both due to said T-section strip whose inherent rigidity is increased by the rigid bead of thermoplastic glue and, in the version where the insole has a peripheral groove, due to the thickness of the hide which must be at least five millimetres to withstand being cut into without the risk of tearing and ripping.
It is precisely the critical observation of this type of footwear that gave rise to the industrial process according to the invention, the main purpose of which is to design a new insole for footwear manufactured using the “GOOD YEAR” method, so as to obtain an article of footwear that is much lighter and more flexible and comfortable, while retaining the above-described properties of sturdiness and waterproofness which are typical of the conventional “GOOD YEAR” machining technique.
From this perspective the new industrial process according to the invention was devised, the main feature of which is to have eliminated both the use of a conventional T-section strip to be glued beneath the edge of the insole, and the adoption of a groove made beneath the edge of the insole, introducing instead the use of a thin tape of hide sewn beneath the edge of the insole, made with a thin soft sheet of hide or soft tanned leather.
This means that between the sole of the wearer's foot and the sole of the shoe there is only a thin soft sheet of hide having a thickness, rigidity and weight of considerably less than the hide insole of three to five millimetres thick which is normally used in the prior art.
It must also be said that the above-mentioned tape of thin hide has a thickness, rigidity and weight that are considerably less than those of the above-mentioned T-section strip, and also the increased rigidity of the insole due to the stitching used to fix said strip of thin hide beneath the edge of the insole is greatly much less than that resulting from the bead of thermoplastic adhesive used to fix the above-mentioned T-section strip.
Another aim of the invention is greatly to increase the comfort of a “pre-assembled” shoe made using the “GOOD YEAR” method, by providing a padded insole so as also to provide the sole of the foot with a supporting surface that is soft as well as flexible.
For further clarity, a description of the process according to the invention now follows with reference to the accompanying drawings, given purely by way of a non-limiting example, in which the various components of the insole are illustrated, before being assembled, during the various steps of assembly and on completion of assembly.
With reference to
Preferably, said insole 1 is made of a thin sheet of hide or soft thin tanned leather, or even fabric or cloth. Said insole 1 is provided with an upper face A and an under face B. Sewn onto the under face B of the insole 1 around the entire periphery thereof, with the exception of the horseshoe arch that surrounds the heel of the shoe, is a tape 2 also made of a sheet of hide or soft tanned leather.
More specifically, said tape 2 is fixed to the overlying insole 1 by at least one peripheral stitching C1 running close to the outer edge 2a of said tape 2, after having arranged said outer edge 2a flush with the edge 1a of the insole 1 so that the inner edge 2b of said tape 2 is free to be folded and detached from the bottom face B of the insole 1.
In the preferred embodiment of the present process, it is provided that said outer edge 2a, before being stitched, is pared down so that its thickness S1 is less than the thickness S2 of the inner edge, as shown in
Due to this arrangement of prior thinning of the outer edge 2a of the tape 2, its inner edge 2b tends spontaneously to detach itself from the under face B of the insole 1 while the above-mentioned stitching C1 is being sewn, as shown in
This detachment facilitates the next machining step, which is to fix the inner edge 3a of the welt 3, the bottom flaps 4a of the upper 4 and the inner edge 2b of said tape 2 with a single peripheral row of stitching C2, as shown in
The fixing of the outer edge 2a of the tape 2 to the insole 1 may be achieved, rather than by means of said stitching C1, also by simple gluing, using water-based or neoprene glues which do not tend to stiffen once dried, as occurs with the thermoplastic adhesives commonly used thus far.
In a variant embodiment of the process according to the invention—as referred to in FIGS. 6 to 11—before fixing the tape 2 to the insole 1, it is provided that the latter is subjected to a slicing operation along a plane parallel thereto so as to be opened and divided, from the tip to the plantar arch, into a top half-insole 1c and a bottom half-insole 1d.
In this case, the tape 2 is fixed beneath the edge of the bottom half-insole 1d. Said splitting of the insole 1 into two half-insoles 1c and 1d is aimed at the possibility of interposing a padding layer 5 between the two half-insoles 1c and 1d, which padding layer is obviously of a size and shape as to be optimally sandwiched between the two half-insoles 1c and 1d.
From this perspective, the width of said padding layer 5 is preferably less than the width of the insole 1, so that the outer edges of the two half-insoles 1c and 1d can be directly glued to each other, hiding the thickness of the inner padding layer 5 from view, a thickness which thus does not increase that of the insole 1, at least around the entire edge thereof as shown in
The material employed for the padding will be any soft material which can guarantee an adequate comfort for the wearer, and preferably it will be an elastically yielding material such as a foamed polymer, for example polystyrene or polyurethane, and a polyurethane gel is particularly preferred. Due to the state of aggregation of this material, it has the advantage to be particularly resistant to compression, and it also tends to take on the shape of the wearer's foot for an optimal fitting.
Once the insole 1 is thus prepared, a reinforcement heel-piece 6 made of cardboard is glued beneath the insole 1, and a corresponding heel-piece 7 made of a soft padded material is glued onto the top of the insole 1, as shown in
To sum up, the process according to the invention, in its simplest and most basic embodiment, involves the following operational steps:
The insole thus prepared is now ready to be sent for fixing of the inner edge 3a of the welt 3 and the bottom flaps 4a of the upper 4 to the inner edge 2b of said tape 2 by means of a single peripheral row of stitching C2.
In the version in which the padding of the insole 1 is provided, the process according to the invention involves the following operational steps:
The insole thus prepared is now ready to be sent for fixing of the inner edge 3a of the welt 3 and the bottom flaps 4a of the upper 4 to the inner edge 2b of said tape 2 by means of a single peripheral row of stitching C2.
Number | Date | Country | Kind |
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MC2009A000172 | Jul 2009 | IT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IT2010/000321 | 7/21/2010 | WO | 00 | 12/28/2011 |