The invention relates to a method for producing a shoe, in particular a sports shoe.
Classical production methods for shoes, especially for sports shoes, are known. Mostly a shoe sole—as the case may be consisting of several parts (outer sole, midsole, inner sole)—is produced which often occurs by injection moulding of a suitable plastic material. Then, the shoe upper is produced, wherein leather of textile materials can be employed. For finishing of the shoe the sole and the shoe upper are connected with another, for example by sewing or gluing.
Thereby, in the given case also individual requirements of the user of the shoe can be considered, wherein customisation can take place. However, this requires normally a high expenditure because work of respective shoe specialists is required in significant amount.
It is the object of the invention to further develop a method of the kind mentioned above in such a manner that it becomes possible to provide an optimal fitting shoe in a simple and cost efficient manner. Thereby, the shoe should be producible quickly and thus cost-efficiently, however it should satisfy individual requirements of the user. The work of specialists at the shoe production should be reduced or totally avoided.
The solution of this object of the invention is characterized in that the method for the production of the shoe comprises the steps:
a) Measuring at least one individual characteristic of the foot of a person and/or one walking characteristic of the person by means of a measuring device;
b) Determining the progression of a material characteristic and/or mechanical characteristic of at least one sole or one sole part of the shoe along at least one direction of extend of the sole or of the sole part in accordance with the values measured according to step a) using a specified algorithm or a specified rule;
c) Producing the sole or a sole part of the shoe, wherein the material characteristics and/or mechanical characteristics are varied along the at least one direction of extend of the sole or of the sole part such that the material characteristic and/or mechanical characteristics at least approximately correspond to the progression determined according to step b);
d) Connecting the sole produced according to step c) or the sole part to an upper in order to complete the shoe.
The measuring according to above step a) takes place preferably by determining the pressure distribution of the foot of the person along the contact area of the foot on the ground; the measuring takes place in this case preferably by means of a pressure sensor plate.
The measuring according to above step a) takes place according to another preferred solution by determining the running behaviour of the person, especially the tendency of the foot to pronation or to supination. The measuring takes place in this case preferably by means of a camera and a treadmill.
The determination according to above step b) takes place preferably by determining the progression of a material characteristic and/or mechanical characteristic along the longitudinal axis of the sole. However, it can also be provided beneficially that the progression of a material characteristic and/or mechanical characteristic along the axis which runs transversal to the longitudinal axis of the sole is determined. Specifically preferred is a combination of both mentioned approaches whereby said progression of a material characteristic and/or mechanical characteristic takes place along the plane at which the foot of the wearer contacts the ground.
The production according to above step c) takes place preferably by adding at least one additive in sections in different quantities to a base material of the sole or of the sole part at the production of the sole or the sole part.
Thereby, a special embodiment provides that the base material of the sole or the sole part is polyurethane. Then, by adding of an additive the material characteristic and/or mechanical characteristic of the polyurethane can be modified and thus controlled selectively. Thereby, it is well known in the state of the art which additives are suitable to especially influence for example the hardness of the polyurethane.
The material characteristic which is modified along at least one direction of extent of the sole or of the sole part is preferably the hardness of the material, especially the Shore hardness.
The produced sole part is preferably a midsole of the shoe and/or an outsole of the same.
The sole can be sewed and/or glued with the upper at connecting according to above step d).
The proposed method is preferably beneficial when it is carried out on an integrated facility, which allows a focussed production of the shoe temporally as well as areal. Accordingly, the above steps a) to d) can be take place in areal closeness, especially in a shoe store. The steps a) to d) can also take place in temporal closeness, especially within a period of maximal 3 hours. Thereby it is possible to offer a shoe to a customer very quickly which shoe is tailored to his individual needs which fits optimal to his circumstances.
Thus, the proposed concept is basing on the idea to produce a sole and a part of the same respectively (midsole and/or outer sole) according to the demands beneficially directly in a shoe shop, wherein the sole and the sole part respectively comprises different properties in sections and in predetermined zones respectively.
In general, sole producing machines which allow such a production are known in the state of the art. Exemplarily, reference is made to sole machines of Klöckner Desma Schuhmaschinen GmbH which allow to produce a sole and a sole part respectively not only homogeneous of one single material but to control the injection moulding process of the sole and the sole part respectively in such a manner that an non-homogeneous structure is obtained.
Preferably at the proposed idea—as mentioned—a polyurethane mixture is varied in its properties by adding at least one suitable additive which is presently used according to the invention to provide a shoe sole in sections with different properties.
At the location of the facility, especially thus in a shoe shop, then at first for example a scan of the foot of the customer is produced and determined which running characteristics the customer has. Dependent from that the design of the sole is determined with respect to different zones and those then produced locally and connected with a shoe upper.
Beneficially so an individual custom-fit shoe, which thus is individually adapted to the customer, can be produced quickly and thus in a cost efficient manner.
In the drawing an embodiment of the invention is shown.
In
Insofar by means of the pressure sensor plate 2 can be determined how the pressure distribution for an individual person results due to the personal ergonomics of the foot. Thus, by means of the pressure sensor plate 2 it is possible to identify the mentioned regions a, b, c, d, e and f in which different pressures are given (wherein for the different mentioned regions respective pressure ranges can be defined). Due to the longitudinal axis L of the foot and correspondingly to the sole of the shoe which has to be produced as well as to the transverse oriented direction Q hereto thus the pressure distribution can be determined by means of the pressure sensor plate along the contact area of the foot on the ground for an individual person.
Said measurement of the pressure distribution along the contact area constitutes a first step at the production of an individual shoe (see above mentioned step a).
Alternative or additive said measurement can also be carried out in another manner: For example by means of a camera the foot of the person can be monitored during running or jogging on a treadmill and herefrom conclusions can be obtained concerning the pronation and supination behaviour of the foot of the person.
In both cases it is general possible in the further process according to above step b) to determine the progression of a material characteristic and mechanical characteristic respectively of the shoe sole which has to be produced. By that it has to be understood that for different regions of the sole in the direction of the longitudinal axis L of the sole as well as in the direction Q transverse hereto for example the rigidity or hardness of the material of the sole is defined which is aimed for to supply an optimal support to the foot of the person.
So, for example it can be provided that in the regions in which a high pressure is given in relation to other regions (see for example region a) in relation to the region d) in
In the same manner for example a deviation from the ideal shape can be counteracted additively or alternatively by the evaluation of the pronation or supination behaviour of the foot of the person by selectively increase or reduce the rigidity of the material and accordingly the stiffness of the material of the sole.
This determination of the progression of the material property and accordingly the mechanical property of the sole along the coordinates L and Q can thereby be carried out by a specialist. But it is also possible that the determined values which are measured by the measuring device 2 are automatically converted in a respective specification for said properties by means of a preset algorithm. Accordingly, above step b) is preferably carried out automatically by a computer. For doing so as the case may be stored comparative values or optimal values can be taken in consideration for the determination of the progression of the properties, wherein said values as the case may be can also be taken from a database after providing the data of the person (for example size, weight, sex).
In
Also depicted is furthermore a container for an additive C which can be added to the materials A and B and which changes its material properties and accordingly its mechanical properties.
As it is indicated in
Needless to mention at this point that
As the case may be the control of the addition of the components A, B, C can occur by a numerical rheological analysis of the flow behaviour of the material which is injected into the cavity (so-called “Meltflow” analysis) so that the desired layering of the materials with different properties after complete filling of the cavity is given in the cavity (see shadings of the sole 3 in
Finally, in
The connection between sole 3 and shoe upper 4 can take place in known manner, thus especially by sewing or gluing.
Filing Document | Filing Date | Country | Kind |
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PCT/EP2016/000297 | 2/19/2016 | WO | 00 |