IT201900008427A1 - BI-COMPOUND SOLE AND RELATED ASSEMBLY PROCEDURE - Google Patents

Description

BI-COMPOUND SOLE AND RELATIVE ASSEMBLY PROCEDURE

DESCRIPTION

The present invention refers to a bi-composed "green" sole for sports footwear, in particular for cycling, composed of two elements, of which the first, outermost, is a structure complete with sole with two empty parts and holes made in recycled plastic polymers, such as ABS or NYLON, and a second, more internal element is made with re-used metal through a die-casting and / or additive printing process.

The bi-composite “green” sole is assembled by inserting the second element in reused metal into the internal part of the first element in recycled plastic polymers, in order to cover the two empty parts and the holes that act as centering and fixing. This type of bicomposed "green" sole is suitable for being assembled to an upper, thus creating a complete sports shoe, which can itself be "green", if the upper is made from fabrics produced with yarns derived from recycled polymers and / or materials, such as for example leathers or the like, made with processing waste.

More specifically, the invention relates to a new bi-compound "green" sole, which can be used to replace the soles currently made in a single piece with carbon or Kevlar / carbon composite laminates and currently used for the most popular cycling shoes on the market. . These types of composite materials still known are used because they guarantee a high rigidity of the shoe area in contact with the pedal of the cycle (indispensable in the sporting practice of road cycling) and have a lower weight than soles made with standard plastic polymers, usually additives with glass or carbon fibers.

The limit of traditional soles made of composite materials is the difficulty of achieving an economical recycling process and the impossibility of reusing their initial components (fabrics and / or laminates in carbon and / or Kevlar / carbon).

The new bi-compound "green" sole, according to the invention, still allows to maintain a suitable rigid structure, thanks to the use of the second internal component, in reused metal, which covers almost the entire internal area of the sole and which is equipped with a honeycomb structure that allows the creation of a rigid element with low thickness and low weight; furthermore, the sole according to the invention allows to use plastic polymers deriving from recycling, which have lower technical performances than the initial plastic polymers, but which, through the described construction and assembly process, allow the realization of a sole with the same technical performance ( stiffness and low weight) of the soles currently in use, as well as easy recycling and reuse of the components and / or elements that compose it. Furthermore, the use of materials deriving from recycling and / or reuse processes allows a substantial saving of the production activities of the initial materials in full protection of the environment (lower CO2 emissions given by the fewer mining activities for metals and / or a reduction in production processes for plastic polymers). Furthermore, the construction method of the new bi-composed "green" sole (made of two separate elements that are easily assembled without the use of glues) allows the costs for the technical equipment to produce the two elements to remain unchanged (in the case of use of additive technology for the internal metal element to be reused) and to significantly reduce the overall cost of the individual two elements, which do not require cutting, cleaning and painting processes, which are instead necessary in the production process of the sole with materials composites.

The aim of the present invention is therefore to obviate the technical drawbacks of the known art referred to above and, in particular, to produce a bi-compound "green" sole for sports shoes, in particular for cycling, in line with stringent world policies. of environmental protection and good practice, in order to consolidate a real circular economy, which allows for the protection of natural resources, a reduction in energy consumption, as well as a reduction in waste and harmful agents for workers.

These and other purposes, which will appear more clearly in the rest of the discussion, are achieved by a bi-composed "green" sole for sports shoes, in particular for cycling, according to the attached claim 1; further detailed technical characteristics are contained in the subsequent dependent claims.

These and other characteristics and advantages of the new bi-compound "green" sole for sports shoes, in particular for cycling, according to the present invention, will become more evident from the description of a preferred and exemplary, but not limiting, embodiment, and from the additions drawings tables, where:

Figure 1A shows an exploded side view of the bi-compound “green” sole, in particular for cycling shoes, according to the present invention;

- figure 1B shows a side view of the bi-compound “green” sole assembled and made, according to the present invention;

- Figure 2A shows an exploded front view from inside the shoe of the bicomposed "green" sole, in particular for cycling shoes, according to the present invention;

- Figure 2B shows a front view from the inside of the shoe of the bi-compound "green" sole assembled and manufactured, according to the present invention;

- Figure 3A shows an exploded front view from the outside of the shoe of the bicomposed "green" sole, in particular for cycling shoes, according to the present invention;

- Figure 3B shows a front view from the outside of the shoe of the bi-compound "green" sole assembled and manufactured, according to the present invention.

With reference to the attached figures, the bicomposed "green" sole (1), in particular for cycling shoes, which is the subject of the present invention, comprises a first element (1A) made of recycled plastic polymers, such as ABS or the NYLON, and a second element (1B) made with reused metals.

The first element (1A) is designed to be the external element of the new bi-compound "green" sole (1) and represents the complete area on which the upper is subsequently fixed. On the aforementioned external area there are empty areas (1A1), in particular two, and openings, in particular the circular holes (1A2), where the elements that make up the second element (1B) made of reused metal are inserted. .

The internal element (1B) comprises a base, which covers almost the entire internal area of the first element (1A), and a series of (preferably two) elements in relief and internally empty (1B1), suitable for being inserted in the empty areas (1A1) of the first element (1A) and having excavated areas (1B4) with possible holes (1B5). The hollowed areas (1B4) with possible holes (1B5) placed near the toe and in the rear part of the second element (1B) of the sole (1) allow the entry and exit of air during normal pedaling, so as to create a sort of Venturi effect inside the sole (1), which allows to maintain a constant temperature of the foot on which the sports shoe is fitted. On the basis of the second element (1B) there may also be a series of pins (1B2), which engage in the openings, in particular in the circular holes (1A2), of the first element (1A), in order to make the second element stable. (1B) on the first (1A) and allow a complete assembly of the sole (1). Above the two internally empty elements (1B1) and for a further additional perimeter area, at least one raised grid (1B3) (a few millimeters thick) is advantageously placed, in order to make the sole (1) more rigid. Once the second element (1B), made of reused metal, has been inserted, in the internal part of the first element (1A), made of recycled plastic polymers, the bi-compound "green" sole (1) is assembled and made and presents internally , on a single plane, the two separate elements (1A, 1B), adapted to be associated with the upper with any relative mounting insole; in addition, in the lower part of the bi-composite sole (1) there is an area where the two raised elements (1B1), made of metal, appear to be slightly inside the first element (1A).

The sports shoes, in particular for cycling, made in this way, can be easily recycled, since both the upper and the two elements (1A, 1B) that compose them can be easily divided and processed for a complete reuse of the materials.

The invention thus conceived and illustrated here is susceptible of numerous modifications and variations, all falling within the scope of the inventive concept as defined by the attached claims.

Furthermore, all the details can be replaced by other technically equivalent elements.

Finally, the components used, as long as they are compatible with the specific use, as well as the dimensions, may be any according to the needs and the state of the art.

Where the features and techniques mentioned in any claim are followed by reference marks, such reference marks have been included for the sole purpose of increasing the intelligibility of the claims and, consequently, have no limiting effect on the interpretation of each element. identified, by way of example, by them.

Claims (9)

BI-COMPOUND SOLE AND RELATIVE ASSEMBLY PROCEDURE CLAIMS 1. Bi-composite sole (1), in particular for cycling footwear, characterized in that it comprises a first element (1A), on which the upper of a shoe is fixed, which is made of recycled plastic polymers, such as for example ABS or NYLON, said first element (1A) being assembled to a second element (1B) made of reused metals, which fits into said first element (1A), substantially forming a single plane, and which comprises a base covering almost the entire internal surface of said first element (1A). 2. Bi-compound sole (1) as in claim 1, characterized in that said first element (1A) has an external surface where empty areas (1A1) and openings are obtained, in particular circular holes (1A2), while said second element (1B) has a series of elements, which are inserted by interlocking in said empty areas (1A1) and / or in said openings (1A2). 3. Bi-composite sole (1) as per at least one of the preceding claims, characterized in that said second element (1B) has a series of elements in relief and internally empty (1B1), suitable for being inserted in said empty areas ( 1A1) of the first element (1A). 4. Bi-composite sole (1) as in claim 3, characterized in that said raised elements (1B1) have hollowed areas (1B4). 5. Bi-composite sole (1) as in claim 4, characterized in that said hollowed areas (1B4) have respective holes (1B5). 6. Bi-compound sole (1) as per claims 4 and 5, characterized in that said hollowed areas (1B4) are placed in proximity to a front part and a rear part of said second element (1B), corresponding substantially to the toe and heel of the shoe. 7. Bi-compound sole (1) as per at least one of the preceding claims, characterized in that said second element (1B) has a series of pins (1B2), which engage in said openings, in particular in said circular holes ( 1A2), of said first element (1A), in order to make said second element (1B) stable on said first element (1A) and to allow complete assembly of the sole (1). 8. Bi-composite sole (1) as per at least one of the preceding claims, characterized in that above said raised and internally empty elements (1B1) a raised grid (1B3) is positioned, in order to make the sole ( 1) rigid. 9. Bi-composite sole (1) as per at least one of the preceding claims, characterized in that, in at least a portion of said sole (1), said raised elements (1B1) are placed slightly inside said first element (1A).