JPH05123204A - Shoe sole having cup sole shape and production thereof - Google Patents

Abstract

PURPOSE:To provide the shoe sole which is excellent in lightness in weight, wear resistance and durability relating to the shoe sole of sporting shoes having a cup sole shape provided with stereoscopic curves and the process for production thereof. CONSTITUTION:This shoe sole consists of a mid-sole part 2 which has the outside shape of a shoe sole shape and is formed with a thin layer part corresponding to the rising side edge 4 of the cup sole along the peripheral edge of the shoe sole and a non-woven sheet 1 which completely covers the mid-sole part 2 from its rear surface. A hot melt sheet or adhesive layer 5 is interposed between such mid-sole part 2 and nonwoven fabric 1. These shoe sole materials are housed into metallic molds and are integrally bonded by heating and pressurizing, by which the shoe sole of the sporting shoes having the cup sole shape is produced.

Description

Detailed Description of the Invention

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sole of an athletic shoe having a so-called cup sole shape having a three-dimensional curved surface and a method for manufacturing the same, and particularly to a sole and a floor surface such as wrestling shoes and boxing shoes. The present invention relates to an athletic shoe that emphasizes the feeling of contact with the ground, is excellent in lightweight and abrasion resistance, and has excellent durability, and a method for manufacturing the same.

2. Description of the Related Art Conventionally, wrestling shoes and boxing shoes sensitively grasp the landing state on the floor to suit the purpose of the competition, and pursue light footwork to enhance the bottom of the grounding surface with a thin layer. A rubber or a high-density rubber is adhered to the bottom of the shoe or is sewn together.

However, even if the solid rubber or the high-density rubber provided on the ground contact surface side is formed extremely thin, the specific gravity is higher than the characteristics of the material, and the weight is naturally reduced. There was a limit. In addition, in wrestling competitions, in order to prepare for a variety of footwork, the contact surface is wound up in a curved shape from the peripheral edge of the shoe sole to the joint of the instep, and a wide range of rubber or high Since the density rubber is used, it tends to be heavy, and it has been a problem to reduce the weight. Also, because of this shape, when joining with the instep, skilled sewing technology,
Adhesive technology is indispensable, and there were defects such as variations in products due to differences in skill level of technology. In addition, there was a defect that the production efficiency was extremely low. The present invention has been made in view of the above-described defects of conventional products, and the object thereof is to obtain a contact that does not require skill of an operator, has high production efficiency, is lightweight, and has excellent wear resistance. An object of the present invention is to provide a shoe sole having a ground sole and a manufacturing method thereof.

In order to achieve the above object, the present invention provides a midsole portion having a three-dimensional curved surface on the upper surface side, and a non-woven fabric which completely covers the midsole portion from the back surface side. It is formed on a shoe sole having a cup-sole shape formed by joining sheet materials. Further, the present invention has a shoe sole-shaped outer shape, and a midsole portion in which a thin layer portion corresponding to the rising side edge of the cup sole is formed along the circumferential side edge of the shoe sole, from the back side of the midsole portion. A non-woven sheet material cut to a size that completely covers the shoe sole material. A hot melt sheet or an adhesive layer is interposed between the midsole portion and the non-woven sheet material, and the shoe sole material is fitted into the lower mold by recess fitting. A shoe sole having a cup-sole shape, which is delivered inside the container and is sealed by a lid mold having a convex shape that forms a curved upper surface of the shoe sole, and is heated and pressed at a predetermined temperature pressure and integrally bonded and molded. It is manufactured.

According to the shoe sole configured as described above, since the non-woven sheet forming the ground contact bottom is completely covered from the back side of the midsole portion, the non-woven sheet has light weight and durability. In addition, since the abrasion resistance is exhibited and the non-woven fabric sheet is completely covered from the back side of the midsole portion, sufficient abrasion resistance and durability are imparted to the portion, especially the sole of the shoe. Force is easily applied to the peripheral edge,
Moreover, it is extremely suitable for shoe soles where the feeling of touching the floor surface is important. In addition, since both of them are simultaneously pressure-bonded in the mold in the bonding step, the non-woven sheet closely adheres to the curved midsole while maximizing the bonding force of both, and wrinkles are generated by the non-woven sheet. Can be suppressed to a minimum and a shoe sole having an excellent external shape can be provided.

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows a non-woven sheet material 1 that forms the bottom of the shoe sole. The non-woven sheet material 1 may be, for example, a lightweight and highly flexible material such as EXCENE ™, CLARINO ™, and CORDRE ™. Sheet-shaped nonwoven fabrics such as are used, but other artificial leathers and synthetic leathers having excellent wear resistance can be used. Figure 2
1 shows a midsole part 2 having a shoe sole type outer shape and a thin layer part 3 corresponding to a rising side edge 4 of a cup sole formed along a circumferential side edge of the shoe sole. As the material, a material having a low specific gravity, which can be thermoformed and is lightweight, is used. Here, a simple substance of synthetic resin such as EVA,
Alternatively, a sheet in which these and other lightweight materials are laminated can also be used. Next, a hot melt sheet 5 as shown in FIG. 3 is used as a joining member between the non-woven fabric sheet material 1 and the midsole portion 2, or a PU-based adhesive material that is generally used in sizing operation is used as an adhesive material layer. Can be used. From this, the present invention comprises the midsole portion 2 having the three-dimensional curved surface 8 and the non-woven sheet material 1 covering the midsole portion 2, and the non-woven sheet material 1 is provided from the back side of the midsole portion 2. It is formed so as to completely cover it. When the non-woven sheet material 1 is coated on the mid-sole portion 2, the non-woven sheet material 1 is cut to a size slightly larger than the mid-sole portion 2 and molded by a mold, and then the side edge of the mid-sole portion 2 is cut. It is desirable to cut off the surplus protruding from the. Further, in order to strengthen the non-slip of the ground contact surface bottom, a shoe sole design member 9 such as an elastomer or the like having a concave and convex design engraved as shown in FIG. 8 and having high slip resistance can be joined. At this time, since it is bonded to the highly durable non-woven sheet material 1, the shoe sole design member 9 can sufficiently achieve its purpose with an extremely thin shoe sole design member 9. Next, a method of manufacturing a shoe sole according to the present invention will be described. FIGS. 4 to 6 show a mold for molding a shoe sole according to the present invention,
Reference numeral 6 is a lower mold having a concave fitting portion for accommodating the shoe sole material.
Reference numeral 7 denotes a lid die for sealing the lower die, and a convex die forming a three-dimensional curved surface 8 of the midsole portion 2 is projected on the lid die 7. Therefore, according to the present invention, as shown in FIG.
First, a midsole portion 2 having an outer shape of a shoe sole and having a thin layer portion 3 corresponding to the rising side edge 4 of the cup sole along the circumferential side edge of the shoe sole is prepared. Next, as shown in FIG. A non-woven sheet material 1 cut into a size slightly larger than the midsole portion 2 so as to completely cover the back surface of the midsole portion 2 is prepared, and between the midsole portion 2 and the woven fabric sheet material 1. With a hot melt sheet or adhesive layer 5 interposed, these shoe sole materials are then delivered into the concave fitting portion of the mold as shown in FIGS. 4 to 6 to have a convex die that forms the upper curved portion of the shoe sole. A desired shoe sole in which the midsole portion 2 and the nonwoven fabric sheet material 1 are bonded and integrated is obtained by sealing with the lid mold 8 and heating and pressing at a predetermined temperature and pressure. At this time, when joining the shoe sole design member 9 made of elastomer or the like having high slip resistance in order to further strengthen the non-slip of the ground contact surface bottom, as shown in FIG. A desired shoe sole can be obtained by joining the shoe sole design member 9 having a stop design engraved thereto with an adhesive or a hot melt sheet and heating and pressurizing this in a molding die.

Since the present invention is constructed as described above, the following effects can be obtained. According to the shoe sole configured as described above, since the non-woven sheet forming the ground contact surface sole is completely covered from the back side of the midsole portion, the non-woven sheet has maximum lightness and durability. You can exert to the limit. In addition, since the non-woven fabric sheet is configured to completely cover the bottom surface of the shoe having a three-dimensional curved surface, sufficient abrasion resistance and durability are imparted to that portion, and in particular, a force is applied to the peripheral side edge of the shoe sole like wrestling. The peripheral part of the sole of the shoe is completely protected during the competition, and the life of the shoe can be maintained for a long time. In addition, the use of the non-woven sheet facilitates the use of multicolored and various colors and patterns, and thus has the advantage of providing a shoe sole having an excellent design feeling. Further, in the manufacturing method of the present invention, the midsole portion 2 and the non-woven sheet material are adhered to each other with a hot melt sheet or an adhesive, and these shoe sole materials are heated and pressed into the concave fitting portion of the mold to integrally bond the two. Since the desired sole is obtained by
The binding force between the two can be enhanced, and at the same time wrinkles can be suppressed to the maximum extent. Therefore, there is no possibility that the products will vary due to the difference in the skill level of the technology, so that it is possible to provide a shoe sole having high production efficiency and excellent appearance. Further, in particular, the midsole portion 2 is, as shown in FIG.
In order to form the rising side edge 4 of the cup sole in advance, the thin layer portion 3 is thinly cut along the peripheral edge of the shoe sole, so that the thin layer portion 3 is formed at the time of molding as shown in FIGS. 5 and 6. The part 3 is naturally and naturally molded by heating and pressurizing the molding die, and the rising side edge of the cup sole can be formed extremely easily.

[Brief description of drawings]

FIG. 1 is a perspective view showing a nonwoven fabric sheet material cut into a shoe sole type.

FIG. 2A is a perspective view showing a midsole portion, and FIG.
Is a sectional view taken along the line XX.

FIG. 3 is a cross-sectional view showing a shoe sole material stored in a mold.

FIG. 4 is a cross-sectional view of a mold showing a manufacturing process.

FIG. 5 is a cross-sectional view showing a state in which a shoe sole material is stored in a mold.

FIG. 6 is a cross-sectional view showing a molded state of a shoe sole material.

FIG. 7A is a perspective view showing a shoe sole of the present invention, and FIG. 7B is a sectional view taken along the line YY.

FIG. 8 is a sectional view of a shoe sole showing another embodiment.

[Explanation of symbols]

 1 Nonwoven Sheet Material 2 Midsole Part 3 Thin Layer Part 4 Standing Side Edge 5 Hot Melt Sheet or Adhesive Layer 6 Lower Mold 7 Lid Mold 8 Solid Curved Surface 9 Sole Design Member

Claims (2)

[Claims] 1. A thin layer portion 3 having an outer shape of a shoe sole and corresponding to a rising side edge 4 of a cup sole along a circumferential side edge of the shoe sole.
And a non-woven sheet material 1 formed by cutting the back surface of the midsole portion 2 into a size that completely covers the midsole portion 2. The above-mentioned shoe sole material is delivered into the concave fitting portion of the lower mold 6 with the melt sheet or the adhesive layer 5 interposed, and the lid mold 7 having the convex mold forming the three-dimensional curved surface 8 on the upper surface side of the midsole portion 2. A method of manufacturing a shoe sole having a cup-sole shape, characterized in that the midsole portion 2 and the non-woven fabric sheet material 1 are integrally bonded and molded by hermetically sealing with a predetermined temperature and pressure. 2. A midsole portion 2 which is flexible and lightweight and has a three-dimensional curved surface 8 on its upper surface side, and the midsole portion 2.
A shoe sole having a cup-sole shape formed from a non-woven sheet material 1 that completely covers and bonds the back surface side of the shoe.