This application is a U.S. National Stage application, filed pursuant to 35 U.S.C. § 371, of international application no. PCT/EP2017/000972, filed on Aug. 11, 2017, the contents of which is incorporated herein by reference in its entirety.
The invention relates to a method for producing a shoe, in particular a sports shoe.
The production of sports footwear is a well known technology. The aim is not only to provide an economical process for production, but also to have the possibility to influence the spring and damping behaviour of the shoe sole and thus of the shoe as much as possible. The material used also plays an important role in this process. Furthermore, a comfortable wearing comfort is aimed for.
In US 2009/0013558 A1, a shoe is described in which the sole of the shoe is made of different plastics that are bonded together using different polymer materials. In WO 2007/082838 A1 it is described that expanded thermoplastic polyurethane (E-TPU) can also be used advantageously for a shoe sole. This document also contains detailed information on this plastic material; in this respect, explicit reference is made to this document.
DE 10 2011 108 744 B4 also describes a shoe in which E-TPU is used as material for the sole. Here it is further described that individual foamed plastic spheres made of this material, which usually have a dimension of a few millimetres, are formed into the sole by adding a binding agent to a corresponding tool according to a possible processing form so that the plastic spheres are bonded together and form the moulded body of the sole. Another procedure is to inject steam under defined pressure into a mould in which the plastic spheres are inserted. This causes partial melting of the plastic material, so that the plastic spheres are bonded together and form the moulded body of the sole.
The properties of the shoe that can be achieved with this, especially with regard to its spring and damping behaviour, are not always fully satisfactory. Furthermore, the manufacturing process of the sole mentioned is sometimes relatively complex and therefore cost-intensive.
The invention is therefore based on the object of providing a process by which a shoe can be manufactured at low cost while achieving a particularly comfortable wearing comfort. Furthermore, the spring and damping behaviour of the shoe should be easily influenceable.
The solution of this object by the invention is characterized in that the method comprises the following steps:
The upper region and the lower region of the shoe upper are thereby preferably formed as a one-piece structure. The shoe upper can be formed as a sock-like structure. According to a preferred embodiment of the invention the shoe upper is produced as a knitted part so that it is produced on a knitting machine.
The upper region and the lower region of the shoe upper are preferably produced as a one-piece, preferably seamless, knitted part. In this case, circular knitting machines are preferably used, with which a circularly closed knitted fabric can be produced.
Of course, there are also other possibilities with which the shoe upper can be manufactured. In particular, it can be envisaged that the upper part of the shoe upper is produced in the traditional way, the lower region, which runs below the sole of the foot of the wearer of the shoe, being, for example, a strobel sole sewn to the upper part of the shoe upper. This can be done in particular in combination with a knitted upper region of the shoe upper.
The lower region of the shoe upper is preferably formed as a textile knitted fabric with a maximum thickness of 5 mm, preferably with a maximum thickness of 3 mm. This gives the wearer of the shoe a particularly advantageous wearing sensation, since the wearer—separated only by the thin lower region of the shoe upper—walking on the bulk material.
The sole part is preferably produced as an injection moulding part or as a thermoformed part.
Thereby it can be provided that at least one web-like structure is formed on the bottom region, which structure extends into the receiving space. This web-like structure forms wall areas within the receiving space, which counteracts the free movement of the loosely filled bulk material and holds it in certain areas of the receiving space. This has a positive effect on the walking sensation when wearing the shoe.
The mentioned web-like structure allows the sole to provide optimum support for the foot in certain applications when used properly under load. This may be relevant from the point of view of the fact that otherwise the (plastic) bodies located inside the receiving space of the sole part do not provide much support for the foot due to the fact that they are not connected to each other but loosely arranged.
When attaching the shoe upper part to the sole part as mentioned above, the two parts can be sewn and/or glued together.
Spherical or ellipsoid bodies are preferably used as bulk material. The bodies of the bulk material are preferably hollow. The dimensions of the bodies of the bulk material in the three spatial directions are preferably between 1 mm and 13 mm, particularly preferably between 3 mm and 6 mm.
The bodies of the bulk material preferably consist of foamed (i.e. expanded) thermoplastic elastomer.
It is particularly preferred that the bodies of the bulk material are made of thermoplastic polyurethane (TPU), thermoplastic polyamide (TPA) and/or olefin-based thermoplastic elastomer (TPO), wherein the mentioned materials are particular expanded (foamed).
The plastic bodies preferably have a hardness of between 75 and 90 Shore A, preferably between 80 and 85 Shore A. They preferably have a bulk density between 100 and 300 kg/m3.
With regard to the expanded thermoplastic polyurethane (E-TPU), which is the preferred material for the plastic bodies which are inserted into the receiving space of the sole part, the following should be mentioned: This material is known per se and is used in shoes. It is available under the name “PearlFoam” from Huntsman International LLC or under the name “Infinergy” from BASF SE, for example. With regard to this material, explicit reference is made to WO 2005/066250 A1, where details on this material, i.e. expandable thermoplastic polyurethanes and their production, can be found.
With regard to the prior knowledge of urethane-based thermoplastic elastomers, reference is also explicitly made to WO 2010/010010 A1, which discloses an expandable, blowing agent-containing thermoplastic polymer blend containing thermoplastic polyurethane and styrene polymer. The polymer blend may contain at least one further thermoplastic polymer. Possible further thermoplastic polymers are in particular polyamide (PA), polymethyl methacrylate (PMMA), polycarbonate (PC), polyethylene (PE), polypropylene (PP), polyvinyl chloride (PVC), cellulose or polyoxymethylene (POM).
The sole part preferably consists of thermoplastic polyurethane (TPU), thermoplastic elastomer (TPE), polyamide (PA) and/or rubber material.
Since we speak of bulk material in connection with the bodies to be introduced into the receiving space, these are individual particles that have no connection to each other. In particular, according to a preferred embodiment of the invention, the plastic bodies are placed in the receiving space of the sole part without connection to each other. Accordingly, the individual spheres or ellipsoids are not connected to each other by any means, but are placed loosely in the receiving space of the sole part.
The bulk material is preferably placed in full packing and preferably under slight pressure in the receiving space of the sole section.
Beneficially, the proposed process allows the cost-effective production of a shoe that is comfortable to wear, whereby it is advantageous to avoid the use of an inner sole or inserted sole.
If required, the aforementioned part of the sole can also be provided with an outer sole on the underside.
It has been shown that when a shoe, especially a sports shoe, is designed in the manner specified above, very advantageous and comfortable wearing properties of the shoe can be achieved with regard to the compression behaviour of the shoe and its recovery properties (after the compressive force is removed by the wearer's foot). This is especially true under the aspect of strong temperature fluctuations.
If the proposed thermoplastic elastomers (in distinction to common polymers) are used as loose bulk material in the cavity of the sole, the frictional properties between the individual particles result in favourable conditions, as they do not slide along each other in an undesirable way, but provide a certain degree of strength despite their loose arrangement when the foot of the wearer deforms the bulk material. Thus, an optimal compromise between a certain massage effect on the one hand and a sufficient hold of the foot while using the shoe on the other hand is achieved.
In the drawings an embodiment of the invention is shown.
In the first phase of the production of shoe 1, the shoe upper 2 and the sole part 5 are produced each.
In the case of shoe upper 2, a knitting process is used according to a preferred solution, producing a sock-like structure as shown in
The sole part 5 can be produced by an injection moulding process or by a thermoforming process, for example. As can be seen in
After the shoe upper 2 and the sole part 3 have been produced (which can be done simultaneously or in any order with a time delay), the receiving space 8 is filled with bulk material 9, which is only indicated in
As can be seen from the other figures, the bulk material 9 is placed in the receiving space 8 in its entirety and, if necessary, under slight pressure. The shoe upper 2 is then placed on the sole part 3 so prepared and the sole part 5 is connected to the shoe upper 2. This can be done by sewing and/or gluing.
Accordingly, the lower region 4 of the shoe upper 2 now lies directly on the bulk material 9, so that a comfortable walking feeling is created when using the shoe.
Any material is generally used as bulk material 9 (e.g. also sand), while spheres or ellipsoids made of foamed plastic material are preferred; details are given above.
To ensure that the bulk material 9 in the receiving space 8 has a certain stability when it is displaced by the foot of the wearer as a result of the weight force, web-like structures 10 can be formed in the bottom region 6 of the sole part 5. These structures 10 prevent the bulk material 9 from shifting sideways, so that the stability of the shoe and especially of the sole can be increased.
In this figure it can also be seen that the lower region 4 of the shoe upper 2 is relatively thin. The thickness D is indicated, which is preferably maximal 3 mm. This provides a pleasant wearing sensation, as the foot of the wearer of the shoe runs almost like on sand, as the individual particles of the bulk material 9 have no connection to each other.
By selecting the material-specific and geometric parameters (dimensions of the particles of the bulk material, dimensions of the individual areas of the shoe upper and the sole part, choice of material, etc.), it is possible to influence the spring and dampening behaviour of the shoe and especially the sole.
This applies in particular also to the optional selection and design of the web-like structure 10, for which round or polygon-like chamber sections, which are open at the top, can also be provided.
It is not illustrated that inserts may be manufactured and connected to sole part 5 in order to reinforce specific areas of the sole. In this way, special areas of the sole can be provided with greater stability, wherein specifically the supporting function of the shoe and especially of the sole can be influenced.
An advantageous embodiment can look as follows:
Hollow bodies (in particular spheres or ellipsoids) consisting of thermoplastic polyurethane (TPU) (possibly also expanded TPU) can be used as bulk material, preferably with a diameter between 3 and 15 mm; a diameter range between 5 and 8 mm is particularly preferred.
These hollow bodies can be produced by injection moulding, blow moulding or laser sintering, for example.
The surface of the hollow bodies can be partially open or completely closed. If hollow bodies are closed, they contain air. One of the characteristics of the bodies is that, when compressed, they exhibit a strongly non-linear progression of the deformation force over the deformation. Accordingly, the hollow body can be deformed or compressed relatively easily to a certain extent, and from a certain degree of deformation the resistance to further deformation increases sharply, i.e. it is now more difficult to deform the hollow body further.
This behaviour can be very advantageous for damping systems in the field of sports and here especially for shoe soles (also midsoles or insoles).
The bodies of the bulk material can be transparent.
The hardness of the starting material of TPU hollow bodies is preferably in the range between 70 and 95 Shore A.
The hollow bodies completely regain their original shape after the external force is removed. Mixing with other materials (e.g. PU foam or E-TPU or E-TPE materials) is possible in order to influence the damping properties advantageously. The combination with other materials can be done by a “PU Casting Process”. In this case, for example, it can be provided that the hollow bodies consist of 80% TPU and 20% PU foam as a binder. In particular, a combination with E-TPU or E-TPE material is also possible.
The hollow bodies can be produced by welding or by using microwaves by joining two hemispheres or half-shells together. Circular webs can form at the joint, which can have a positive effect on the stiffness in the desired manner.
While, as shown above, a loose insertion of individual bodies in the form of bulk material is provided for, there is also the possibility in principle that the aforementioned bodies made of the materials mentioned are also at least partially coupled or joined together. In this respect it is possible to create a structure in which a number of bodies, preferably hollow bodies, are joined together, for example by microwave welding.
A similar composite of individual bodies can also be created by embedding the individual bodies, especially hollow bodies, in a plastic foam, especially polyurethane foam, thus creating a structure that can be used to build the sole of the shoe.
Filing Document | Filing Date | Country | Kind |
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PCT/EP2017/000972 | 8/11/2017 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2019/029781 | 2/14/2019 | WO | A |
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Number | Date | Country | |
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20200245726 A1 | Aug 2020 | US |