KR20160132554A - Electronic apparatus and method of fitting analysis forcustomized shoes - Google Patents

Abstract

The present invention relates to an apparatus auxiliary used in a fitting step performed for manufacturing a shoe fit to a foot of a user in a process for manufacturing a customized shoe and a method thereof. In addition, the present invention relates to an apparatus and a system for analyzing that a shoe just before the finish is fit to a foot using a pressure sensor and a computer system with a number or a figure. Pressure sensors connected to the computer is attached to a main part of the foot. While a user wears a shoe, which is a fitting target, when a size of pressure loaded in a main part of the foot is transmitted to a computer, a size of pressure of each part is displayed in a model foot displayed in a monitor screen with a number or a figure. Thus, an amount of pressure of each of parts of the foot can be easily recognized. In other words, while a user wears a shoe, in view of an amount of pressure recognized for each main position of the foot, a final shoe is manufactured after a shoe last used for manufacturing a shoe is partially modified. Therefore, an apparatus and a method are able to help a customized shoe fitting to the foot and convenient to be manufactured. When a customized shoe is fitted until now, a shoe last was modified depending on wearers subjective feeling to manufacture a shoe in an unreasonable manner. However, according to the present invention, as a shoe fitting analyzing apparatus and a method thereof are used, a shoe is fitted exactly on a wearers foot based on an objective value by a pressure sensor, and wearability of a shoe is improved, thereby providing comfortability to a customer.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to an apparatus and method for auxiliary use in a bobbing step for making shoes suitable for a wearer's foot in the course of manufacturing custom shoes, and more particularly, This is a shoe bubble system that can analyze and judge whether or not it is good or not by objective numerical values and pictures by using electronic pressure sensor and computer system.

Personalized shoes including daily shoes and various professional sports shoes fit well to the wearer's foot and are used to fix the shoe last after completing the bubble step just before completion to make comfortable shoes, Complete and provide it to the wearer.

However, until now, after wearing the shoes just before completion in the shoe gauging step, the wearer has been able to grasp which parts fit well or which parts do not fit depending on the subjective feeling of the wearer. By using these subjective results, we have completed the shoe making by modifying and complementing the shoe appropriately. The problem in this process is that the subjective feeling of the wearer can be different from person to person, and therefore the result of Gabon is also inaccurate because concrete values can not be provided. These problems are directly linked to the inconvenience and suffering of consumers.

These problems are also a big problem in the shoes of everyday life but there are problems in sports such as sports such as baseball, soccer, basketball, handball, tennis, golf, rugby, Athletics, fencing, boxing, wrestling, etc.) can be a very lethal problem.

Nevertheless, in the domestic and international shoe industry, the garment of shoes is roughly made in a conventional way, which is based on the subjective feeling and reaction of the wearer rather than a scientific and objective method.

The present invention solves the problem of the conventional conventional shoe bending method, in which electronic pressure sensors connected to a computer are attached to the main parts of the foot, the socks or stockings are worn, and the weight of the shoes When the pressure applied to the pressure sensor attached to each part is uniformly loaded and the magnitude of the applied pressure is transmitted to the computer, the degree of compression of each part on the model foot displayed on the monitor screen is displayed in figures and numerical values, And at the same time, the degree of compression of each part is indicated numerically on the Gabon test result table, so that it is possible to make an objective judgment. By taking the values shown on each part of this table one by one, To complete the final shoe so that it is 100% accurate on the wearer's foot. The purpose of this study is to utilize this method as an auxiliary device and method for producing comfortable shoes. Here, the shoes to be used in Gabon are all kinds of sports (eg baseball, soccer, basketball, handball, tennis, golf, rugby, climbing, skating, athletics, fencing, boxing, wrestling etc.) ) Is a professional sports shoes.

It is a further object of the present invention to provide a method and system for determining the suitability of a sport for all sporting events in which the fitting of shoes is of great importance (e.g. baseball, soccer, basketball, handball, tennis, golf, rugby, , Wrestling, etc.) by applying the Gabon system of the present invention to the athlete's foot by making it fit exactly to the feet of the athlete so that they can play comfortably.

It is a further object of the present invention to provide a method and a system for enabling a customer who orders custom shoes to visually observe and confirm an objective scientific shoe gauzing process based on advanced science using an electronic pressure sensor and a computer in a Gabon step, The goal is to enhance the confidence and confidence of the production itself and enable customized shoes orders.

It is a further object of the present invention to provide a method and apparatus for producing a customized footwear in which the manufacturer of the customized shoes uses an electronic pressure sensor and a computer, The purpose of the Gabon system is to provide the best quality custom shoes to customers by improving the practical shoe manufacturing technology.

According to an aspect of the present invention, there is provided an apparatus for analyzing electronic ebony of a personalized footwear comprising a hardware part and a software part, wherein the hardware part comprises a pressure sensor, a cable for connecting them to a computer, And the software part is constituted by an input data processing part for receiving pressure from a pressure sensor, a pressure data analysis processing part for analyzing pressure data, and a model foot processing part for visually identifying the analysis result.

The method of operating the electronic seam analyzer of the personalized footwear may include first determining where to attach the pressure sensors to match the type and design of the shoe to be seamed, Attach the sensors. Second, wear stockings or socks with sensors attached. Third, the pressure applied due to the sock worn on the sensor attached to each part is input as data and set to the initial value of each part. Fourth, put on the shoes that are the subject of Gabon, then open your shoulders with two legs and stand on your feet. Fifth, the color displayed on each part of the model foot displayed on the display screen of the apparatus is observed, and the degree of pressure of each part is firstly grasped. Sixth, the specific values of the Gabon test result table are checked and based on this, the corresponding part of the new bone is corrected and supplemented. Finally, based on the results of Gabon analysis, the final shoe is fabricated with the modified bone.

The present invention is characterized by a series of processes for manufacturing a final shoe including a process of attaching a pressure sensor to a main part of the foot including the hardware and software parts.

The invention of the Gabon analysis apparatus and method of this customized shoe is based on the fact that the Gabon of the shoe which is made in the process of producing the custom shoe in the domestic and overseas shoe industries is dependent on the subjective feeling of the customer, Secondly, it has caused pain or pain in the foot of the customer.

However, according to the present invention, by using the pressure sensor attached to the main parts of the foot and the numerical values obtained by using the computer as a result of bubbling, There is an effect that can be implemented.

In addition, since the fitting of the shoe is very important in the professional sporting of the sports item in which the shoe plays a very important function or the role of the shoe, the provision of the professional sports shoes which is precisely fit to the feet of the athletes using the electronic fastening system of the present invention It is possible to improve the performance of each athlete wearing a customized professional sports shoes by the electronic garbage system.

In addition, customers who order customized shoes can wear shoes that fit their feet accurately and wear socks with electronic gauges using high-tech science using electronic pressure sensors and computers. It is possible to expect that the effect of replacing the existing market of ready-made shoes can be expected.

Further, another effect of the present invention is that the manufacturer who manufactures the custom shoes uses an electronic pressure sensor and a computer to provide objective and scientific methods based on advanced science, It is possible to provide a basis for providing the best quality customized shoes to customers by improving the practical shoe manufacturing technology.

Further, as the ICT advanced technology is applied to the shoe industry utilizing the apparatus and method of the present invention, it is possible to provide the accuracy and comfort to the customers and to give confidence and confidence to engineers engaged in the shoe industry .

1 is a block diagram for explaining an electronic sealing system of a customized footwear.
Fig. 2 is a table for showing the results of the shoe basting test and providing correct information to the correction work.
Fig. 3 is a block diagram of a Gabon analysis system for a custom shoe.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to FIG. 1 to FIG.

The following examples are intended to illustrate the present invention and should not be construed as limiting the scope of the present invention. Accordingly, an equivalent invention performing the same function as the present invention is also within the scope of the present invention.

In addition, in adding reference numerals to the constituent elements of the respective drawings, it should be noted that the same constituent elements are denoted by the same reference numerals even though they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being connected, coupled, or connected to another component, the component may be directly connected to or connected to the other component, but other components may be connected, It may be connected.

The system of the present invention is configured as shown in FIG. The hardware of the system consists of pressure sensor (02), cable (03), PC (or notebook) and monitor. The main software modules of the system are composed of a pressure sensor module 11, a pressure data input processing section 12, a pressure data analysis processing section 13, and a model footprint processing section 14.

When the data sensed by the pressure sensor 02 is input to the pressure data input processing unit 12 through the cable 03 of FIG. 1, the magnitude of the sensed pressure is digitized, and the pressure data analysis processing unit 13 When the data sensed by the pressure sensor 02 is input to the pressure data input processing unit 12 through the cable 03 of FIG. 1, the magnitude of the sensed pressure is digitized, and the pressure data analysis processing unit 13 After being sent, the pressure is analyzed for each part and used in two ways. First, the magnitude of the pressure of the corresponding part in the model foot drawing processor 14 is displayed in color on the display 15 screen. The second is indicated by numerical value in the result of the basting test of the shoe of Fig.

Next, a series of processes utilizing the above system will be described.

The pressure sensor 02 of Fig. 1 and the computer are connected by a cable 03, wherein the pressure sensor uses a pressure sensor having a round sensor area of about 1 cm in diameter. Depending on how much pressure is applied to the sensor area, the resistance value changes. The higher the pressure is, the lower the resistance. If the pressure is not applied, the resistance is expressed as a specific size of M (ohms). For example, it is suitable that the sensor used here can measure from 10 g to 100 kg.

As shown in FIG. 1, first, the pressure sensor 02 and the computer are connected to each other by a cable 903. The mounting position of the sensors 02 is different depending on the type and design of the shoes, and varies depending on men and women. For example, as shown in Fig. 1, one on each of the balls (first metatarsal and fifth metatarsal) is commonly attached to each design. Then attach to the side of the big toe and the side of the small toe, respectively. In the case of a shoe designed to surround the instep, it is not necessary to attach it to the instep and to attach the instep to the instep. Next, attach to the point where the heel protrudes. The sole is attached to the arch peak and around 3 ~ 4 as needed to check the arch part. In addition, the pressure sensor (02) may be attached to the part where it is determined that it is necessary to check the degree of pressing according to the type and design of the shoe.

After attaching the pressure sensor (02) to the main part of the foot and wearing stockings or socks, put the shoes to be worn on both feet and keep the legs open on the shoulder width, And the system is operated.

In order to improve the accuracy of the system, set the initial pressure data for each part while wearing only stockings or socks just before wearing the shoes.

After wearing the shoes, watch the computer monitor screen 1 to 2 minutes after the system is turned on.

At this time, first check the color and numerical values displayed on the main part of the foot (04) to check the overall fit, and then check the pressure value of each part indicated on the foot test result sheet (05) of the footwear.

Based on the data thus checked, we will revise and revise the bones used to make the shoes of Gabon.

When the bones are corrected and complemented according to the result of the Gabon, the final shoe is completed using the bones.

As described above, when the final shoe is completed after correcting the trunk using the objective numerical value by utilizing the present system in the step of bending the shoe, it is possible to manufacture the customized shoe that exactly matches the foot.

Here, the method of sending the sensed value from the pressure sensor to the computer can be wirelessly using short range wireless communication such as Bluetooth, not a cable line. In addition, the display of the data sensed by the pressure sensor and transmitted to the computer can utilize a display system designed for this purpose, not a computer or a notebook.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

01: Foot
02: Pressure sensor
03: Cable
04: Model foot
05: Footwear test results
06: Position of pressure sensor
07: Pressure
08: Deviation of pressure
09: Results of evaluation
10: CPU
11: Pressure sensor module
12: Pressure data input processing section
13: Pressure data analysis processor
14: Model foot picture processing unit
15: Display

Claims (7)

In order to accurately grasp the degree of compression applied to the main parts of the foot in the state of wearing shoes for the purpose of gauze shoe, it is necessary to connect a cable to a computer or a notebook or a separately designed display, or to use a short- A Gabon analysis system of a custom shoe using a pressure sensor. In order to easily understand the degree of pressure applied to the main part of the foot with the electronic pressure sensor attached to the shoe for the purpose of shoe gauging, the shoe is painted on the monitor screen of a computer or a notebook or a separately designed display A system that expresses the degree of pressure of the main parts in figures, colors and numerical values. In order to make it easier for unshakers to understand the degree of pressure applied to the feet with the electronic pressure sensor while wearing shoes for shoes, it is necessary to display the results of the shoes' bobbing test on a computer or notebook monitor screen or a separately designed display table) and expressed in numerical value. In order to improve comfort and accuracy after attaching the pressure sensor in the shoe seaming step, a method of wearing stockings or socks and a degree of pressure applied from stockings or socks to be worn are input through a pressure sensor attached to each part And the value of each part is initialized, thereby accurately grasping the degree of the pressure applied purely from the wearing of the shoe to be gauze. A hardware system consisting of a pressure sensor, a cable connecting a pressure sensor to a computer or notebook or Bluetooth, and a monitor screen of a computer or notebook or a separately designed display to successfully carry out the shooping of the shoe. A pressure data analysis processing unit 13, and a model footprint processing unit 14 in order to successfully perform the bending of the shoe. The present invention can be applied to all kinds of sporting events in which shoes play a very important function or role (for example, baseball, soccer, basketball, handball, tennis, golf, rugby, , Fencing, boxing, wrestling, etc.).

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