This application claims priority to Japanese Patent Applications No. 2019-191353 filed on Oct. 18, 2019 and No. 2020-084988 filed on May 14, 2020, the disclosures of which are incorporated herein by reference in their entirety.
The present invention relates to a last for shaping a shoe upper, a method for producing the last, and a method for producing the shoe upper.
In producing custom-made shoes tailored to a user's feet, lasts are exclusive for the user. Thus, after shoe uppers are shaped using lasts to produce shoes, the lasts are no longer used unless stored for future use.
US 2018/0014609 A discloses that footwear is produced in a portable housing. US 2016/0206049 A discloses a last pre-form that is composed of a shape memory polymer and thereby re-shapeable. CN 109732913 A discloses that a last is formed by 3D printing. U.S. Pat. No. 1,550,232 B discloses a last including paper pulp thereinside.
However, none of the abovementioned prior art documents specifically and explicitly discloses recycling of lasts that are no longer used.
It is therefore an object of the present invention to provide a recyclable last, a method of producing the last, and a method of producing a shoe upper.
The following presents a simplified summary of the invention disclosed herein in order to provide a basic understanding of some aspects of the invention. This summary is not an extensive overview of the invention. It is intended to neither identify key or critical elements of the invention nor delineate the scope of the invention. Its sole purpose is to present some concepts of the invention in a simplified form as a prelude to the more detailed description that is presented later.
The present invention provides a last for shaping a shoe upper, the last including: at least an outer peripheral portion composed of a plastic material that is reversibly transformed between a solid state where the plastic material has a certain shape when the shoe upper is shaped, and a plasticized state where the plastic material has fluidity and is thereby deformable.
The present invention further provides a method for producing a last for shaping a shoe upper, the method including forming the last by layering a pulp aggregate in which a plurality of pulp materials are aggregated, in an inward and outward direction with reference to a foot of a shoe wearer, by 3D printing.
The foregoing and other features of the present invention will become apparent from the following description and drawings of an illustrative embodiment of the invention in which:
An embodiment of the present invention will be exemplified with reference to the drawings. Hereinafter, regarding the term representing the direction “inward and outward direction”, the inward direction is a direction toward a foot of a shoe wearer, and the outward direction is a direction toward the outside of the shoe. Further, when a description is given below on a shoe upper 2 before and after being shaped, the shoe upper 2 before being shaped can be referred to as an unshaped upper 2A while the shoe upper 2 after being shaped can be referred to as a shaped upper 2B for separate identification of the respective states.
A last (shoe last) 1 of this embodiment is mainly not a last for shoes for mass production, but a custom-made last 1 tailored to a user's foot F. However, the present invention does not intend to completely deny its application to a last for shoes for mass production, but can be applicable thereto. The last 1 can be produced at a shoe retailer, or can be produced at a factory located away from the retailer by transmission and reception of 3D printing data and data on a user's foot using a communication device, as will be described later. The last 1 of this embodiment has at least an outer peripheral portion (i.e., a portion coming into contact with the shoe upper 2 when the shoe upper 2 is shaped) composed of a plastic material. The “plastic material” herein means a material that is reversibly transformed between a solid state where the material has a certain shape (see the shape of the last 1 shown in
The plastic material in this embodiment includes a solid content aggregate in which a plurality of solid contents are aggregated, and a shaping material mixed in the solid content aggregate and used for solidifying the solid content aggregate into the certain shape. In this embodiment, a pulp material (i.e., pulp pieces formed into particles or fibers that each are smaller than the last 1 as a whole) is used as the solid contents. That is, the solid content aggregate in this embodiment is a pulp aggregate. This configuration allows the last 1 to be formed of the pulp material, which is a general paper material, and thus to be formed of a readily available material.
The shaping material is dissolved from the solid state to thereby allow the plastic material to have fluidity. The dissolution occurs, for example, by adding a different material (water in this embodiment) to the shaping material, by heating the shaping material, or by irradiating the shaping material with light (e.g., ultraviolet rays). The material used as the shaping material is a water-soluble material, such as starch paste or a water-soluble resin, which exhibits fluidity when water is added thereto. The shaping material is, for example, a liquid in the initial state, and turns to a solid when left for a certain period of time in the state of being in contact with the pulp aggregate. The shaping material is thereafter caused to dissolve so that a liquid with the solid pulp aggregate mixed therein can be made. When a water-soluble shaping material is used, the shaping material is dissolved in water and thereby plasticized; thus, it is advantageous that no special chemical or apparatus is required for dissolution.
A mixing ratio between the pulp aggregate and the shaping material can be determined in consideration, for example, of hardness required when the outer peripheral portion of the last 1 is used (i.e., before and after the shoe upper 2 is shaped), the roughness of the surface of the last 1, atmospheric humidity when the last 1 is used, and a period of time required for the dissolution.
The last 1 thus configured can be transformed from the solid state to the plasticized state after the shoe upper 2 is shaped, and thereafter transformed back to the solid state. This transformation occurs reversibly. Thus, the last 1 is recyclable.
The last 1 is formed of the pulp aggregate layered in the inward and outward direction. The last 1 can be multi-layered or single-layered. The last 1, which can be shaped by the layering, can be formed without the use of a forming mold. Thus, the last 1 can be, for example, shaped using a 3D printer as shown in
The last 1 may be solid, but is preferably hollow inside (see the partial cross section in
As shown in
In the case where the last 1 includes the central part 12, the central part 12 can be formed of a material of higher heat conductivity than that of the peripheral part 13. For example, the central part 12 can be formed of metal (e.g., an aluminum alloy). This configuration causes the central part 12 of the last 1 to be heated when the shoe upper 2 is heated for shaping (see
As shown in
Examples of the protective part 14 include a metal film (e.g., aluminum film), a ultraviolet curing resin that is applied and cured (e.g., epoxy resin), a silicon resin, and rubber. The protective part 14 may be a layer composed of small particles (e.g., sand) blown on the outer periphery of the body 11. The protective partl4 may be a film formed on the body 11 by soaking the body 11 in liquid resin. Further, the protective part 14 can be a film formed by blowing liquid resin onto the body 11, or by applying liquid resin to the body 11 using a brush, a roller or the like.
Next, a method for producing the last 1 will be described. The last 1 is formed by layering the plastic material (mixture of the pulp aggregate and the shaping material) in the inward and outward direction by 3D printing. This forming is performed so that the last 1 has a hollow shape, as shown in the partial cross section in
In the case where the last 1 is formed by 3D printing, a forming speed of the last 1b that is being shaped can be considered. The entire last 1 can be formed at a uniform speed; or for example, for the purpose of shortening the shaping time, an instep portion of the last 1, which corresponds to a portion of a shaped upper 2B that significantly affects wearing feeling of the user, can be precisely shaped at a low speed and the other portions can be coarsely shaped at a high speed. Further, the outer layer of the last 1 with which the shoe upper 2 comes into contact at the time of being shaped can be precisely shaped at a low speed and the inner layer thereof can be coarsely shaped at a high speed. Still further, the last 1 can be shaped to have the outer layer of high density and the inner layer of low density.
Before the last 1 is formed, a data acquiring step of acquiring the user's foot shape data, and a data generating step of generating 3D printing data from the user's foot shape data acquired are performed. Thereafter, a last forming step of layering the pulp aggregate based on the generated 3D printing data is performed. Performing these steps enables forming the custom-made last 1 tailored to the user's foot F.
The 3D printing data is created based on the user's foot shape data, which is individually generated for each of a plurality of users. The 3D printing data thus generated allows the shoe upper 2 to be finely customized for each user.
The user's foot shape data refers to, for example, measurement data of each part of the user's foot F generated from image data obtained by capturing an image of the user's foot F as shown in
The image data can be acquired at the user's home or at a retailer (dealer) the user visits. In this case, the image data is transmitted to the server of a shoemaker and the foot shape data is generated at a factory of the shoemaker, so that the lasts 1 and shoes conforming thereto can be subsequently produced at the factory. It is also possible to acquire the image data at a retailer and produce the lasts 1 and shoes conforming thereto at the retailer. It is of course possible to produce the lasts 1 and shoes conforming thereto respectively at different places. The retailer is not limited to a fixed store but may be a mobile store using a car or a trailer.
A dissolving step is performed when the last 1 is no longer required after being used for shaping the shoe upper 2. In the dissolving step, the last 1 after being used is dissolved and fluidized to obtain a dissolved material 1F (see
To carry out the dissolving step within a short period of time, hot water can be added to the last 1 after being used. Further, a parting line can be in advance formed on the last 1 at the time of shaping the last 1. Still further, a mechanical device such as a cutter (e.g. shredder) or a device for crushing the aggregates or the like of the last 1 can be used before or after adding cold or hot water to promote dissolution by the cold or hot water.
Next, a method for producing the shoe upper 2 using the last 1 will be briefly described. For example, a material of the shoe upper 2 (i.e., the unshaped upper 2A) composed of a fiber sheet including heat-shrinkable yarns is prepared. Then, carried out are a first shaping step of placing the unshaped upper 2A on the last 1, and a second shaping step of shaping the unshaped upper 2A in conformity with the shape of the last 1 by heating to obtain the shaped upper 2B, as shown in
Performed after the second shaping step is a sole attaching step, in which the shaped upper 2B is attached to a separately prepared sole by, for example, adhesive. Other than adhesive, heat fusion bonding, for example, can be applied to perform the sole attaching step simultaneously with the second shaping step. In this case, the heat fusion bonding can be efficiently performed using the last 1 having the central part 12 formed of a material of high heat conductivity (for example, a metal such as aluminum, copper, or stainless steel). Forming a shoe tongue, trimming a wearing opening, making eyelets for passing shoelace therethrough, attaching decoration members and tags, printing a logo, and attaching an insole can be performed as appropriate, during any of the aforementioned steps or after all the steps.
Hereinafter, the configurations and operational effects according to the embodiment of the present invention will be summarized. Provided in this embodiment is a last 1 for shaping a shoe upper 2, the last 1 including: at least an outer peripheral portion composed of a plastic material that is reversibly transformed between a solid state where the plastic material has a certain shape when the shoe upper 2 is shaped, and a plasticized state where the plastic material has fluidity and is thereby deformable.
This configuration allows the last 1 to be transformed from the solid state to the plasticized state after the shoe upper 2 is shaped, and transformed back to the solid state, thereby allowing the last 1 to be recyclable.
The plastic material may include a pulp aggregate in which a plurality of pulp materials are aggregated, and a shaping material for solidifying the pulp aggregate into the certain shape, and the shaping material may be configured to be dissolved from the solid state to thereby cause the plastic material to have fluidity.
This configuration allows the pulp material, which is a general paper material, to be used, and thus allows a readily available material to be used.
The shaping material can be water-soluble.
This configuration allows the shaping material to be dissolved in water, and thus eliminates the necessity of preparing special chemicals or devices for dissolution.
The last 1 can be formed of the pulp aggregate layered in an inward and outward direction with reference to a foot of a shoe wearer.
This configuration allows the last 1 to be formed by layering without a use of a forming mold, and thus to be shaped, for example, by 3D printing.
The last 1 can be hollow inside.
This configuration eliminates the necessity to arrange a material in the center portion of the last 1, and can thus save the material.
The last 1 can further include: a central part 12 formed in advance as a core and constantly held in the solid state; and a peripheral part 13 that is formed on an outer peripheral portion of the central part 12 and that is formed of the plastic material.
This configuration can shorten the time required for forming the last 1, and can reduce the amount of the plastic material used, as compared with the configuration in which the last 1 is entirely uniformly formed.
The central part 12 may be formed of a material having a higher heat conductivity than that of the peripheral part 13.
This configuration allows the shoe upper 2 to be heated also from the central part 12 side at the time of shaping the shoe upper 2 by heating, and thus allows the shoe upper 2 to be efficiently shaped.
The last 1 can further include: a body 11 including the plastic material; and a protective part 14 covering an outer periphery of the body 11.
This configuration allows the protective part 14 to protect the body 11.
The protective part 14 may be capable of being removed from the body 11.
This configuration allows the protective part 14 to be removed from the last 1, and thus allows the body 11 to be easily recyclable.
Provided in this embodiment is a method for producing a last 1 for shaping a shoe upper 2, the method including: forming the last 1 by layering a pulp aggregate in which a plurality of pulp materials are aggregated, in an inward and outward direction with reference to a foot of a shoe wearer.
The production method thus configured allows the last 1 to be easily formed without a use of a forming mold.
The method for producing the last 1 can further include forming the last 1 to be hollow by the 3D printing.
The production method thus configured can shorten the time required for forming the last 1, and can save the material.
The configuration of the method for producing the last 1 can be such that the last 1 includes: a central part 12 formed in advance as a core; and a peripheral part 13 formed on an outer peripheral portion of the central part 12. According to this method, a portion to be formed by the 3D printing can be limited to the peripheral part 13.
The production method thus configured can shorten the time required for forming the last 1, and can reduce the amount of the plastic material used, as compared with the configuration in which the last 1 is entirely uniformly formed.
The method for producing the last 1 can further include: acquiring a user's foot shape data; generating 3D printing data from the user's foot shape data; and forming the last by layering the pulp aggregate based on the 3D printing data.
The production method thus configured allows the last 1 to be formed tailored to the user's foot.
The method for producing the last 1 can further include creating the 3D printing data based on the user's foot shape data individually generated for each of a plurality of users.
The production method thus configured allows the shoe upper 2 to be customized for each user.
The user's foot shape data can be generated from image data obtained by capturing an image of the user's foot.
The production method thus configured allows the foot shape data to be easily generated using, for example, a digital camera or a smartphone P.
The configuration of the method for producing the last 1 can be such that the last 1 includes a water-soluble shaping material for solidifying the pulp aggregate into a certain shape, and that the method further includes adding water to the last 1 after being used to fluidize the last 1.
The production method thus configured allows the last 1 after being used to be recyclable as a last 1 for another user.
Provided in the aforementioned embodiment is a method for producing a shoe upper 2, the method including: placing an unshaped upper 2A on the last 1, the unshaped upper 2A composed of a fiber sheet including heat-shrinkable yarns; and shaping the unshaped upper 2A in conformity with the shape of the last 1 by heating to obtain a shaped upper 2B.
The production method thus configured allows the shoe upper 2 to be produced using a recyclable last 1.
The present invention has been described by taking an embodiment, but the description is merely an exemplification. The last 1, the method for producing the last 1, and the method for producing the shoe upper 2, according to the present invention, are not limited to the aforementioned embodiment. Thus, various modifications can be made for the last 1, the method for producing the last 1, and the method for producing the shoe upper 2, according to the present invention, without departing from a gist of the present invention. The modifications include, for example, partially replacing or partially omitting a plurality of elements constituting the aforementioned embodiments, and combining an element pertaining to an embodiment with an element pertaining to another embodiment as appropriate. The modifications also include combining matters pertaining to common technical knowledge regarding the last 1, the method for producing the last 1, and the method for producing the shoe upper 2.
For example, the plastic material may be a resin. In the case where a thermoplastic resin is used as the resin, the thermoplastic resin can be transformed to a plasticized state by being heated and to a solid state by being cooled.
The aforementioned embodiment has been described by taking, for example, the case where the pulp material is used as the solid content, without limitation thereto. For example, wood pieces (e.g., wood chips), bamboo pieces, natural fiber pieces (e.g., yarn waste or cut pieces of plant fibers), resin pieces (preferably heat-resistant resin pieces), metal pieces, paper pieces (larger than the pulp material and kept in a paper form), fabric pieces, plant pieces (e.g., cut pieces of dry grasses), sand, soil, or mud can be used.
The shaping material may be any material molten by heat or dissolved in a solvent other than water.
In the aforementioned embodiment, a description has been given on, for example, the method for producing the last 1 in which the material is layered by 3D printing, but the last 1 may be formed by, for example, producing a forming mold 4 shown in
In this case, as shown in
First, as shown in
In pouring the plastic material into the forming mold 4, the plastic material can be poured into each of the first forming mold 4a and the second forming mold 4b to form a pair of last components (left and right components), which are subsequently joined together to form the last 1, or the plastic material can be poured into the forming mold 4 of after the first forming mold 4a and the second forming mold 4b are joined together, to form the last 1.
This forming mold 4 may also be composed of the plastic material as in the case of the last 1 so that the forming mold 4 after being used can be dissolved and recycled for a forming mold 4 for forming a last 1 having a different shape.
The last 1 can be formed by combining together a plurality of masses composed of a plastic material and each smaller than the last 1, such as beads 5 and 6 shown in
The last 1 shown in
The last 1 may be formed to entirely conform to the shape of the user's foot F, but may be formed to have a specific portion having a desired dimension inconsistent with the shape of the user's foot F for design or functional reasons.
The method for producing the shoe upper 2 is not limited to the aforementioned embodiment in which the fiber sheet including heat-shrinkable yarns are heat-shrunk, but various methods such as: knitting yarns to form fabric surrounding the last 1; or layering a material using a 3D printer can be employed.
The last, the method for producing the last, and the method for producing the shoe upper, of this embodiment are as described above, but the present invention is not limited to the aforementioned embodiment, and the design can be appropriately modified within the scope intended by the present invention. The operational advantages of the present invention are also not limited to the foregoing embodiments. The embodiments disclosed herein should be construed in all respects as illustrative but not limiting. The scope of the present invention is not indicated by the foregoing description but by the scope of the claims Further, the scope of the present invention is intended to include all the modifications equivalent in the sense and the scope of the claims.
Number | Date | Country | Kind |
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2019-191353 | Oct 2019 | JP | national |
2020-084988 | May 2020 | JP | national |