JP3199763U - Shoe structure with vented and wear resistant shuttle weave upper - Google Patents

Abstract

A shoe construction having a vented abrasion resistant shuttle weave upper is provided. A shoe sole structure (10) and a ventilation wear-resistant shuttle weave upper (20) are provided. The ventilation and wear-resistant shuttle weave upper 20 is a shuttle fabric having a two-layer structure and is mounted on the sole structure 10 to form a shoe structure. Ventilation wear-resistant shuttle weaving upper 20 is woven using a double-headed jacquard shuttle loom according to the texture pattern and hole design, and the warp yarn is relatively lifted or shifted using a combination of a plurality of triangle heel elements and a jacquard machine. By doing so, a plurality of ventilation holes 62 woven in an oblique three-dimensional cross weave are formed by the first warp, the second warp and the plurality of wefts. [Selection] Figure 2

Description

  The present invention relates to a ventilation and abrasion-resistant shuttle weaving upper shoe structure, which is a cross woven inner layer with different yarn types or wire diameter warps sent from two warp feeding rollers of a two-head jacquard shuttle loom. The outer layer and the outer layer of the air-wear and wear-resistant shuttle weave upper are formed and attached to the shoe sole to constitute the shoe structure.

  A conventional shoe structure includes a shoe sole structure and an upper. Depending on the shoe application, the upper is made of different materials. For example, athletic shoe uppers can be made of a variety of materials. The various materials can be selected based on various properties, including tensile resistance, abrasion resistance, comfort, breathability, compressibility, and sweat perspiration fast drying.

  The single-sheet woven upper cloth fabric is widely applied to the manufacture of the upper, but is generally manufactured mainly by knitted weave. However, the upper fabric manufactured by knitting has the following disadvantages. For example, 1. Since usable yarn materials and specifications are limited, the design of the upper pattern is also limited. 2. To meet the requirements of upper wear and fabric tensile strength, only a few types of materials and specifications can be applied, or additional reinforcement steps are required. 3. Most knitted fabrics are single-color post-dyed fabrics, so if weaved with multi-colored yarns, the production speed will decrease. 4. Since the knitted fabric woven has elasticity, the subsequent secondary process becomes complicated and the cost increases.

  The difference between a knitted fabric and a woven fabric is that the form of yarn in the woven fabric is different. A woven fabric is a fabric formed by right-angle weaving yarns in the weft direction. The upper cloth fabric woven by the weaving method has a number of advantages over the knit cloth. For example, 1. The woven cloth can be designed in various patterns depending on the texture pattern. It is high and can have various styles such as solid or delicate. 2. The woven fabric is excellent in functionality such as abrasion resistance, tensile strength and fit by being able to select an appropriate yarn material. 3. Because there are many types of thread that can be selected, the choice of fabric color is enriched.

  However, in the conventional shuttle loom, a single type or wire diameter warp is sent by only one warp feeding roller, so that the current upper cloth fabric can only be woven into a single layer, and two layers of different materials are used. If the fabric is produced, it is necessary to sew two single-layered fabrics or perform a secondary process on the single-layered fabrics, which not only takes time, but also cannot reliably manage the yield. .

  As described above, the inventors of the present invention have conducted intensive research based on many years of experience in the industry in order to promote industrial use. Created.

  In view of the above-described conventional problems, the present invention aims to provide a shoe structure having a ventilation wear-resistant shuttle weave upper, and weaves the upper fabric directly by the shuttle weaving technique, that is, a two-head jacquard shuttle loom. The first and second warps with different thread types or wire diameters can be fed out to weave the functional shuttle weave upper fabric with cross weaving, and the conventional upper weaving process connects the members of the conventional upper The time and process for matching can be shortened.

  In view of the above-described conventional problems, the present invention aims to provide a shoe structure having a ventilation wear-resistant shuttle weave upper, and is woven with a cross weave using a first warp, a second warp and a plurality of wefts. The conventional shuttle loom is limited to the cross weaving method of warp and weft, and solves the problem that it is not possible to weave a woven fabric having different tactile sensations and different structures of the inner and outer layers of the fabric in a single process To do.

  In view of the above-described conventional problems, the present invention aims to provide a shoe structure having a ventilation wear-resistant shuttle weave upper, and a first warp according to a hole design using a plurality of triangle heel elements and a jacquard machine. And by raising or shifting the second warp relatively, and forming a plurality of ventilation holes woven with diagonal three-dimensional cross weave with a plurality of wefts, the air permeability is superior to the conventional upper.

  In accordance with the above-described objectives, a shoe structure having a vented abrasion resistant shuttle weave upper is provided. The shoe structure includes a sole structure and a vented abrasion resistant shuttle weave upper. Ventilation and wear-resistant shuttle weave upper is a shuttle fabric with a two-layer structure, which is mounted on the sole structure to form a shoe structure, and the ventilation and wear-resistant shuttle weave upper is double-headed according to the texture pattern and hole design A plurality of ventilation holes woven using a jacquard shuttle loom and woven in an oblique three-dimensional cross weave are formed by a first warp, a second warp and a plurality of wefts.

  More preferably, the double-headed jacquard shuttle loom includes two warp yarn feeding rollers, a jacquard machine, a plurality of triangle heel elements, and a plurality of weft yarn feeding means.

  More preferably, the first warp and the second warp are relatively lifted or shifted according to the hole design using a combination of a plurality of triangle scissors elements and a jacquard machine.

  More preferably, the double-headed jacquard shuttle loom improves the wear resistance of the ventilated wear-resistant shuttle weave upper by providing first or second warps of different wire diameters.

  More preferably, the bilayer structure is the same structure or a different structure.

  More preferably, the yarn types of the first warp, the second warp, and the plurality of wefts are an elastic fiber yarn, a twisted yarn, or a combination thereof.

  More preferably, when the yarn type is an elastic fiber yarn, the wire diameter of the first warp is 150 to 1200 denier, the wire diameter of the second warp is 100 to 1200 denier, and the wire diameter of the plurality of wefts is 100. ~ 1200 denier.

  More preferably, when the yarn type is a twisted yarn, the wire diameter of the first warp is 150 to 1200 denier, the wire diameter of the second warp is 100 to 1200 denier, and the wire diameters of the plurality of wefts are 100 to 1200. Denier.

  The present invention provides a shoe structure having a vented wear resistant shuttle weave upper, which has a number of advantages as follows.

  (1) Two-layer structure: Using a warp and a weft having different wire diameters, a cloth fabric having the same or different inner and outer layers is woven according to the texture pattern.

  (2) Three-dimensional pattern: Due to the cross arrangement of warp and weft having different thread types and wire diameters, the shuttle woven upper cloth fabric can have different thicknesses and three-dimensional patterns, and a thread with a thin wire diameter is used. Complex patterns can be woven.

  (3) Excellent abrasion resistance: woven using yarns with different wire diameters according to the texture pattern, thereby improving the wear resistance of cloth fabrics using thick wire diameter yarns that provide high strength be able to.

  (4) Excellent air permeability: By forming a plurality of ventilation holes in which a first warp, a second warp and a plurality of wefts are woven in a diagonal three-dimensional cross weave according to the structure pattern and hole design, the air permeability is improved. By dissipating heat easily, it is possible to solve the unpleasant feeling that heat accumulates in the foot.

  (5) Excellent quick-drying property: The plurality of ventilation holes in the upper portion prevent moisture from being accumulated in the shoe structure due to washing or moisture, thereby extending the service life.

  (6) Reduce cost: When the single-weave woven upper fabric is suitable for mass production compared to conventional knitted upper fabric, the ventilation and wear-resistant shuttle weave upper according to the present invention is implemented at the factory. As soon as the simple cutting process is completed, the shoe can be completed by combining it with the sole, so that the cost can be reduced by significantly reducing the sewing manpower and shortening the shoe production time. Therefore, the installation cost of the factory production line, the inventory cost of products and semi-finished products, the personnel cost, and the process cost such as the factory space cost can be greatly reduced. Profit.

  In order to make the above-described objects, technical features, and effects actually implemented easier to understand, the following preferred embodiments will be described in detail with reference to the accompanying drawings.

The foregoing and other features and advantages of the present invention may be better understood with reference to the following drawings, in which exemplary embodiments are better understood.
It is the schematic of the ventilation abrasion-resistant shuttle weaving upper which concerns on this invention. 1 is a schematic view of a shoe structure according to the present invention.

  For a more complete understanding of the present invention, the technical features, contents and advantages of the present invention, and the effects that can be achieved will be described in detail in the form of an embodiment with reference to the accompanying drawings. Is done. However, the illustrated drawings are merely for the purpose of assisting the contents of the description or the specification, and are not restricted to those that are proportional to the original size after the implementation of the present invention or that are precisely arranged. Therefore, it should be explained in advance that the illustrated drawings should not be construed in proportion to the arrangement of the attached drawings and the positional relationship, and are not intended to limit the scope of the invention in practice. I want.

  In order to understand the advantages, features and technical methods of achieving the present invention, it will be described in detail with reference to exemplary embodiments and drawings. The present invention may be embodied in different forms and should not be construed as limited to the embodiments set forth herein. Rather, the provided embodiments are provided so that this disclosure will be thorough and will fully convey the scope of the invention to those skilled in the art. Therefore, the present invention is defined by the appended claims for utility model registration.

  First, a description will be given with reference to FIG. FIG. 1 is a schematic view of a ventilation wear-resistant shuttle weave upper according to the present invention. As shown in FIG. 1, the ventilation and wear-resistant shuttle weave upper 20 includes a plurality of ventilation holes 62 and a plurality of eyelets 63. In the present embodiment, the size and distribution state of the ventilation holes 62 can be appropriately arranged according to the hole design, so that the illustrated embodiment is merely an example and is not limited thereto.

  The ventilation / abrasion resistant shuttle weaving upper 20 is produced by weaving using a double-headed jacquard shuttle loom according to an organization pattern according to demand. A pattern such as a jacquard, pattern, or brand logo can be added to the upper organization pattern. The double-headed jacquard shuttle loom includes two warp yarn feeding rollers, a jacquard machine, a plurality of triangle reed elements, and a plurality of weft yarn feeding means.

  The double-headed jacquard shuttle loom performs cross-weaving using first and second warps sent by two warp yarn feeding rollers and a plurality of wefts sent by a plurality of weft feeding means. By combining different thread types or wire diameters, shuttle woven upper fabric fabrics of different styles or colors can be produced in a single step, i.e. the structure of the inner and outer layers of the vented wear resistant shuttle woven upper 20 is: The same structure or different structures can be used according to actual demand, and the time and cost required for the secondary process can be reduced.

  Further, the wear resistance of the cloth fabric can be effectively improved by the thick wire diameter yarn. The yarn used in the present embodiment can improve the tensile strength and abrasion resistance of the yarn in a strengthening process such as twisting or gluing.

  Also, using a combination of a plurality of triangle scissors elements and a jacquard machine, the first warp and the second warp are relatively lifted or shifted according to the texture pattern and hole design, and woven with a diagonal three-dimensional cross weave together with a plurality of wefts. A plurality of ventilation holes 62 are formed. Therefore, it is possible to solve the unpleasant feeling that heat accumulates in the foot by improving the air permeability of the upper and easily releasing heat.

  Further, the ventilation and wear resistant shuttle weave upper 20 can be manufactured in a single process due to the difference in the yarn material or wire diameter of the first warp and the second warp. The yarn types of the first warp, the second warp, and the plurality of wefts are elastic fiber yarns, twisted yarns, or a combination thereof.

  When the yarn type is an elastic fiber yarn, the yarn may be deformed due to stretchability, so that the winding speed of the thread winding shaft is appropriately adjusted in the production process to prevent the deformation of the upper pattern and It is necessary to install a torque controller so as to maintain a more preferable fabric production rate.

  In this embodiment, when the yarn type is an elastic fiber yarn, the wire diameter of the first warp is 150 to 1200 denier, the wire diameter of the second warp is 100 to 1200 denier, and the wire diameters of the plurality of wefts are 100-1200 denier.

  In this embodiment, when the yarn type is a twisted yarn, the first warp has a wire diameter of 150 to 1200 denier, the second warp has a wire diameter of 100 to 1200 denier, and the plurality of wefts have a wire diameter of 100 to 100. 1200 denier.

  This will be described with reference to FIG. FIG. 2 is a schematic view of a shoe structure according to the present invention. As shown in FIG. 2, the shoe structure 61 includes a ventilation wear-resistant shuttle weave upper 20 and a shoe sole structure 10. The ventilation wear resistant shuttle weave upper 20 can be mounted on the sole structure 10 in various ways, such as stitching, seaming or gluing to form the shoe structure 61. Further, since the ventilation wear resistant shuttle weave upper 20 has been described in detail with reference to FIG. 1, description thereof is omitted here.

  The ventilation wear resistant shuttle weave upper 20 is woven by a two-head jacquard shuttle loom and then cut along the contour of the upper pattern and attached onto the sole structure 10 to form a shoe structure 61. In this implementation, the ventilation and wear resistant shuttle weave upper 20 can be cut by a cutting die, cut or laser cutting.

  The ventilated and abrasion-resistant shuttle weave upper of the present invention is woven by a double-headed jacquard shuttle loom, that is, using different warp and weft yarns of different diameters, different thicknesses and textures in a single process according to the texture pattern A cloth fabric having a structure in which the inner layer and the outer layer are different can be woven.

  Furthermore, various functional structures can be designed according to demand. For example, since the outer layer structure of the upper needs to have high wear resistance so as to prevent damage due to friction, it is preferable to improve the wear resistance using a yarn type having a large wire diameter. In addition, since the inner layer structure is in contact with the user's foot and is required to have good tactile sensation, it is preferable to maintain flexibility by using a thread type having a thin wire diameter.

  What has been described above is illustrative only and is not intended to limit the invention. Any changes and modifications within the equivalent scope without departing from the scope and spirit of the present invention shall be dealt with in the appended utility model registration request.

10: Sole structure 20: Ventilation and wear-resistant shuttle weave upper 61: Shoe structure 62: Ventilation hole 63: Eyelet

Claims (8)

A shoe structure having a ventilation and abrasion resistant shuttle weave upper,
The sole structure,
Ventilation wear-resistant shuttle weave upper,
With
The ventilation and wear resistant shuttle weave upper is a shuttle fabric having a two-layer structure, and is attached on the shoe sole structure to form the shoe structure. The ventilation and abrasion resistant shuttle weave upper includes a texture pattern and a hole. Ventilation resistance characterized by forming a plurality of ventilation holes woven with a diagonal three-dimensional cross weave with a first warp, a second warp and a plurality of wefts, woven using a two-head jacquard shuttle loom according to the design Shoe structure with wear shuttle weave upper.   The shoe according to claim 1, wherein the double-headed jacquard shuttle loom includes two warp yarn feeding rollers, a jacquard machine, a plurality of triangle heel elements, and a plurality of weft yarn feeding means. Construction.   The combination of the plurality of triangle scissors elements and the jacquard machine is used to relatively pull up or shift the first warp and the second warp according to the hole design. Shoe structure.   The double-headed jacquard shuttle loom improves the wear resistance of the ventilation wear-resistant shuttle weave upper by providing the first warp or the second warp having different wire diameters. The shoe structure according to claim 1.   The shoe structure according to claim 1, wherein the two-layer structure is the same structure or a different structure.   The shoe structure according to claim 1, wherein the first warp, the second warp, and the plurality of wefts are elastic fiber yarns, twisted yarns, or a combination thereof.   When the yarn type is an elastic fiber yarn, the wire diameter of the first warp is 150 to 1200 denier, the wire diameter of the second warp is 100 to 1200 denier, and the wire diameter of the plurality of wefts is 100. Shoe structure according to claim 6, characterized in that it is -1200 denier.   When the yarn type is a twisted yarn, the wire diameter of the first warp is 150 to 1200 denier, the wire diameter of the second warp is 100 to 1200 denier, and the wire diameter of the plurality of wefts is 100 to 1200. The shoe structure according to claim 6, wherein the shoe structure is denier.