CN112107079A

CN112107079A - Shoe zigzag position measuring method and device

Info

Publication number: CN112107079A
Application number: CN202010921442.5A
Authority: CN
Inventors: 徐彦鹏
Original assignee: SHENZHEN INTERTEK QUALITY TECHNOLOGY SERVICE CO LTD
Current assignee: SHENZHEN INTERTEK QUALITY TECHNOLOGY SERVICE CO LTD
Priority date: 2020-09-04
Filing date: 2020-09-04
Publication date: 2020-12-22
Anticipated expiration: 2040-09-04
Also published as: CN112107079B

Abstract

In an embodiment of the application, the method comprises the steps of obtaining a medial axis position of the shoe, an internal length value of the shoe and a thickness value of the rear end of the shoe; determining the position of an inner heel of a shoe according to the position of a central axis of the shoe and the thickness value of the rear end of the shoe, wherein the thickness value of the rear end of the shoe is the thickness value of a protective material wrapping the heel of the shoe; determining a inflection position corresponding to the shoe based on the medial axis position of the shoe, the interior heel location, and the interior length value of the shoe. Through the key points such as the outside tip of confirming shoes, outside heel of a shoe, use the measuring apparatu to measure the inside length value of shoes to confirm the tortuous position of shoes, this application is suitable for the shoes of different sizes and different shoe types, makes the tortuous position measurement accuracy of shoes improve, can guarantee the validity of test result, and has the universality.

Description

Shoe zigzag position measuring method and device

Technical Field

The invention relates to the technical field of shoe zigzag position measurement, in particular to a method and a device for measuring shoe zigzag positions.

Background

The shoes can receive the tortuous of different degrees in long-term the in-process of wearing, and the shoes can appear the surface coating when the tortuous is too much and drop, corrugate, the fracture, upper of a shoe face and sole are glued open, sole fracture scheduling problem to influence product quality and consumer's use impression. In order to ensure the product quality, the method of bending the finished shoe is used when the shoe is detected, namely, the bending position of the half sole of the shoe is fixed by using a clamp, and the movable clamp is used for repeatedly lifting and putting down the heel at a certain angle, namely, the action of the foot when a person walks is simulated, so that the bending resistance of the shoe is evaluated, the position evaluation of the bending position is very important, and if the judgment of the bending position is wrong, the evaluation is influenced to a certain extent.

At present, most of the measurement of the zigzag position of the shoe is to manually and directly measure the length of the sole by using a ruler or a caliper, and for some shoe types of which the insole can not be directly measured, the length of the outsole can only be measured to determine the zigzag position of the shoe.

However, the lengths of the outsole and the insole are different, and particularly for some shoe types with outsoles protruding out of uppers, the accurate measurement of the zigzag positions of the shoes has certain difficulty and certain subjectivity, so that the test cannot reach a unified standard, the test result has certain deviation, and the accuracy is low.

Disclosure of Invention

In view of the above, embodiments of the present invention have been developed to provide a method and apparatus for measuring a shoe zigzag position that overcomes, or at least partially solves, the above-mentioned problems.

In order to solve the problems, the embodiment of the invention discloses a method for measuring the shoe zigzag position, which comprises the following steps:

obtaining the position of the central axis of the shoe, the internal length value of the shoe and the thickness value of the rear end of the shoe;

determining the position of an inner heel of a shoe according to the position of a central axis of the shoe and the thickness value of the rear end of the shoe, wherein the thickness value of the rear end of the shoe is the thickness value of a protective material wrapping the heel of the shoe;

determining a inflection position corresponding to the shoe based on the medial axis position of the shoe, the interior heel location, and the interior length value of the shoe.

Preferably, the step of obtaining the medial axis position of the shoe, the inner length value of the shoe, and the thickness value of the rear end of the shoe comprises: acquiring an external heel position and an external toe position, and determining the position of a central axis of the shoe according to the external heel position and the external toe position; setting the distance from the inner heel to the inner toe cap to an inner length value of the shoe;

and acquiring the distance from the inner toe cap to the outer heel, and setting the difference between the distance from the inner toe cap to the outer heel and the inner length value of the shoe as the thickness value of the rear end of the shoe.

Preferably, the step of determining an inner heel location from the shoe medial axis location and the shoe rear end thickness value comprises:

and converting the thickness value of the rear end of the shoe into the coordinate of an internal heel point, and marking the position of the internal heel point on the central axis.

Preferably, the step of determining a inflection position corresponding to the shoe based on the medial axis position of the shoe, the interior heel location, and the interior length value of the shoe comprises: determining a flexion zone of the shoe based on the flexion position.

The shoe zigzag position measuring device comprises a box body for accommodating a shoe, and a measuring instrument for measuring the internal length value of the shoe and the thickness value of the rear end of the shoe;

the box body comprises a bottom plate used for marking the position of the central axis of the shoe and a transparent side wall used for limiting the position of the shoe, and the transparent side wall is vertically arranged on the periphery of the bottom plate;

the measuring instrument is connected above the box body through the shoe when measuring the thickness value of the rear end of the shoe, the measuring instrument comprises a cylindrical measuring scale and a sliding scale which is slidably installed at one end of the cylindrical measuring scale, a fixed measuring scale gauge is vertically arranged at one end, far away from the cylindrical measuring scale, of the sliding scale, and a movable measuring scale gauge is slidably connected to the sliding scale.

Preferably, the transparent side wall comprises a first side wall and a second side wall which are oppositely arranged along the length direction of the bottom plate, a fixed side wall which is oppositely arranged along the width direction of the bottom plate, and a movable side wall which is used for enabling the box body to be suitable for shoes with different sizes, and the movable side wall is movably connected with the first side wall and the second side wall along the length direction of the bottom plate.

Preferably, the joint of the movable side wall and the first side wall and the joint of the second side wall are respectively provided with a groove facing the opening of the bottom plate, and the grooves are used for clamping the first side wall and the second side wall.

Preferably, the movable side wall and the fixed side wall are respectively provided with a marking line for assisting in marking, and the marking line is arranged close to the bottom plate along the vertical direction.

Preferably, the cylindrical measuring scale and the sliding scale are both etched with corresponding scale marks.

Preferably, the bottom plate is provided with a marking paper in an exchangeable manner.

The present application specifically includes the following advantages:

Drawings

FIG. 1 is a flow chart illustrating the steps of one embodiment of a method of measuring the shoe tortuosity level of the present invention;

FIG. 2 is a block diagram of an embodiment of a shoe tortuosity level measuring apparatus according to the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

The purpose of accurately measuring the bending position of the shoe is to evaluate the bending resistance degree of the half sole part of the shoe when the shoe is used in different environments, and the bending position of the shoe is the bending position of the half sole when people walk, namely the bending position of the shoe. In order to ensure the product quality, a shoe flexing resistance test is required, a method for testing the shoe flexing resistance is adopted during the shoe flexing resistance test, namely a clamp is adopted to fix the flexing position of the half sole part of the shoe, a movable clamp is adopted at the heel part of the shoe to enable the heel to repeatedly lift up and put down at a certain angle, namely, the flexing of the shoe is simulated when a user walks, and the test evaluates the shoe flexing resistance performance, so the shoe flexing resistance test is particularly important, and certain influence is generated on the shoe flexing resistance test.

Referring to fig. 1, a flow chart of steps of an embodiment of a method for measuring a shoe zigzag position of the present invention is shown, which may specifically include the following steps:

and S100, obtaining the position of the central axis of the shoe, the internal length value of the shoe and the thickness value of the rear end of the shoe.

Step S200, determining the position of an inner heel of the shoe according to the position of the central axis of the shoe and the thickness value of the rear end of the shoe, wherein the thickness value of the rear end of the shoe is the thickness value of a protective material wrapping the heel of the shoe.

Step S300, determining a zigzag position corresponding to the shoe according to the central axis position of the shoe, the inner heel position and the inner length value of the shoe.

In the embodiment of the application, the position of an inner heel position is determined by acquiring the position of a central axis of the shoe, the inner length value of the shoe and the thickness value of the rear end of the shoe, and according to the position of the central axis of the shoe and the thickness value of the rear end of the shoe, wherein the thickness value of the rear end of the shoe is the thickness value of a protective material wrapping the heel; determining a inflection position corresponding to the shoe based on the medial axis position of the shoe, the interior heel location, and the interior length value of the shoe. Through the key points such as the outside tip of confirming shoes, outside heel of a shoe, use the measuring apparatu to measure the inside length value of shoes to confirm the tortuous position of shoes, this application is suitable for the shoes of different sizes and different shoe types, makes the tortuous position measurement accuracy of shoes improve, can guarantee the validity of test result, and has the universality.

Next, a method of measuring the shoe meandering in the present exemplary embodiment will be further described.

As described in step S100, obtaining a middle axis position of the shoe, an internal length value of the shoe, and a thickness value of the rear end of the shoe, specifically, obtaining a middle axis position of the shoe as an external heel point position and an external toe point position, and determining the middle axis position of the shoe according to the external heel point position and the external toe point position;

obtaining the internal length value of the shoe, namely obtaining the distance from the internal heel to the internal toe cap and setting the distance as the internal length value of the shoe;

and acquiring the thickness value of the rear end of the shoe, namely acquiring the distance from the inner toe cap to the outer heel, and setting the difference value between the distance from the inner toe cap to the outer heel and the inner length value of the shoe as the thickness value of the rear end of the shoe.

In an embodiment of the present application, the thickness value of the rear end of the shoe is a thickness value of the protective material covering the heel, i.e., a distance from the inner heel to the outer heel.

As described in step S200, an inner heel point position is determined according to the middle axis position of the shoe and the thickness value of the rear end of the shoe, specifically, the thickness value of the rear end of the shoe is converted into the coordinate of the inner heel point, and the inner heel point position is marked on the middle axis position.

As described in step S300, the inflection position corresponding to the shoe is determined according to the central axis position of the shoe, the inner heel location and the inner length value of the shoe, specifically, the inflection region of the shoe is determined according to the inflection position, and the position of the inner length percentage of the shoe marked from the inner heel location on the central axis position of the shoe is the inflection region.

Further, the position of the preset percentage of the internal length value of the shoe is marked at the central axis position of the shoe from the internal heel position of the shoe, and the perpendicular line of the central axis position of the shoe is marked at the zigzag position.

In a specific embodiment, taking a shoe to be measured as an example, marking points of an external toe cap and an external heel, and connecting two points to form a line as the position of the central axis; measuring by a measuring ruler to obtain an internal length value of the shoe and a thickness value of the rear end of the shoe, and marking the thickness value of the rear end of the shoe on a middle axis as an internal heel point position, wherein the thickness value of the rear end of the shoe is the distance from the internal heel to the external heel, or is measured by a caliper; and calculating 70% of the inner length of the shoe, marking 70% of the inner length by taking the inner heel point as a starting point on the central axis, taking the point as a bending point, and taking the point as a perpendicular line of the central axis. The method has the advantages that the key points of the shoes such as the external toe caps and the external heel heels of the shoes are determined, the internal length value of the shoes is measured by the measuring instrument, so that the bending position of the shoes is determined, the accuracy of the bending position of the shoes is improved, the validity of a test result can be guaranteed, and the method has universality.

Referring to fig. 2, there is shown a block diagram of an embodiment of the shoe zigzag position measuring apparatus of the present invention, in which the boundary between the fixed sidewall 12 and the bottom 2 is divided by a broken line of the bottom. The device may specifically comprise the following structure: comprises a box body for containing a shoe, a measuring instrument for measuring the internal length value of the shoe and the thickness value of the rear end of the shoe; the box body comprises a bottom plate 2 used for marking the position of the central axis and a transparent side wall used for limiting the position of the shoe, and the transparent side wall is vertically arranged on the periphery of the bottom plate 2. The measuring instrument is connected above the box body through the shoe when measuring the thickness value of the rear end of the shoe, the measuring instrument comprises a cylindrical measuring scale and a sliding scale which is slidably installed at one end of the cylindrical measuring scale, a fixed measuring scale gauge is vertically arranged at one end, far away from the cylindrical measuring scale, of the sliding scale, and a movable measuring scale gauge is slidably connected to the sliding scale.

In the embodiment of the application, the box body comprises a bottom plate 2 used for marking the position of the central axis and a transparent side wall used for limiting the position of the shoe, and the transparent side wall is vertically arranged on the periphery of the bottom plate 2; the measuring instrument is connected above the box body through the shoe when measuring the thickness value of the rear end of the shoe, the measuring instrument comprises a cylindrical measuring scale and a sliding scale which is slidably installed at one end of the cylindrical measuring scale, a fixed measuring scale gauge is vertically arranged at one end, far away from the cylindrical measuring scale, of the sliding scale, and a movable measuring scale gauge is slidably connected to the sliding scale. This application is through the key points such as the outside tip of definite shoes, outside heel of a shoe, uses the measuring apparatu to measure the inside length value of shoes to confirm the zigzag line of shoes, mobilizable curb plate makes the device be suitable for the shoes of different sizes and different shoe types, makes the zigzag line degree of accuracy of shoes improve, can guarantee the validity of test result, and has the universality.

Next, a shoe meandering measuring device of the present exemplary embodiment will be further described.

In the embodiment of the application, the box body is including being used for the mark bottom plate 2 of axis position with be used for injecing the transparent lateral wall of the position of shoes, specifically, transparent lateral wall is transparent baffle, and transparent lateral wall can make things convenient for the staff to operate at the in-service use in-process, and the outside heel point position and the inside toe position of better mark shoes for the operation is simpler, convenient.

In this application embodiment, transparent lateral wall sets up perpendicularly bottom plate 2 is all around, specifically, transparent lateral wall includes along relative first lateral wall and the second lateral wall that sets up of length direction of bottom plate 2, edge the relative fixed lateral wall 12 that sets up of 2 width direction of bottom plate and the removal lateral wall 11 that is used for making the box body is suitable for not unidimensional shoes, remove lateral wall 11 and follow the length direction movable connection of bottom plate 2 first lateral wall with the second lateral wall.

In a specific embodiment, a groove opened toward the bottom plate 2 is respectively disposed at a joint of the movable side wall 11 and the first side wall and a joint of the second side wall, and is used for clamping the first side wall and the second side wall. The movable side wall 11 and the fixed side wall 12 are respectively provided with a marking line for assisting in marking, the marking line is arranged close to the bottom plate 2 along the vertical direction, and the bottom plate 2 can be provided with marking paper in a replaceable manner.

In this application embodiment, when measuring the thickness value of shoes rear end, the measuring apparatu passes through the shoes are connected the box body top, the measuring apparatu include tube-shape measuring tape and slidable mounting in the slide bar of tube-shape measuring tape one end, the slide bar is kept away from the one end of tube-shape measuring tape is equipped with fixed measurement ruler rule perpendicularly, sliding connection has the removal to measure the ruler rule on the slide bar, specifically, the tube-shape measuring tape with the slide bar all etches there is corresponding scale mark.

And placing the marking paper into the box body, wherein the marking paper can be arranged above the bottom plate 2 in a replaceable manner, the edge of the marking paper is aligned with the bottom of the box body, and the marking paper can be white paper. The method comprises the steps of enabling one side of a shoe to abut against a first side wall or a second side wall, namely enabling an inner waist of the shoe to abut against the first side wall or the second side wall, enabling an outer heel point to abut against a fixed side wall 12, enabling a movable side wall 11 to be in contact with an outer toe, enabling a contact point of the outer toe and the movable side wall 11 to be an outer toe point, enabling the outer toe point to generate a mark on a mark line of the movable side wall 11 through a marking pen, enabling a contact point of the outer heel and the fixed side wall 12 to be an outer heel point, and enabling the marking pen to generate a mark on the mark line of the fixed side wall 12.

And moving the shoe out of the box body, drawing the external toe cap point and the external heel cap point on marking paper by a graduated scale, connecting the two points to generate a straight line, and setting the straight line as the position of the central axis. Put into the box body with shoes, the sole portion is aimed at the axis of shoes, adopts the measuring apparatu to survey and measures the inside length value of shoes, the inside length value of shoes measures to be 255mm in this embodiment.

Keeping the fixed measuring ruler of the measuring instrument still and fixing the fixed measuring ruler in the inner toe cap, moving the movable measuring ruler of the measuring instrument out of the inner heel, enabling the movable measuring ruler to contact the fixed side wall 12, measuring the distance from the inner heel to the outer toe cap, wherein the distance from the inner toe cap to the outer heel is 255mm in the embodiment, and making a difference between the fixed side wall 12 and the inner heel, namely making a difference between the distance from the inner toe cap to the outer heel and the inner length value of the shoe, thereby obtaining the thickness value of the rear end of the shoe, wherein the difference between 275mm and 255mm is made into a difference value of 20 mm.

The shoe is moved out of the box body again, the length from the outer heel point to the inner heel is marked along the central axis, the length is 20mm in the embodiment, the mark is made on the central axis, namely the inner heel point, 70% of the inner length value is taken from the inner heel point, in the embodiment, 70% of 255mm, namely 178.5mm, the mark is made on the central axis, the point is used as a vertical line of the central axis, the shoe is placed in the same position in the box body again, and the line of the zigzag position extends to the two sides of the shoe.

In another embodiment, the device comprises a box for containing the shoe, a measuring instrument for measuring the internal length value of the shoe and the thickness value of the rear end of the shoe; the box body comprises a bottom plate 2 used for marking the position of the central axis and a transparent side wall used for limiting the position of the shoe, and the transparent side wall is vertically arranged on the periphery of the bottom plate 2; the measuring instrument is connected above the box body through the shoe when measuring the thickness value of the rear end of the shoe, the measuring instrument comprises a cylindrical measuring scale and a sliding scale which is slidably installed at one end of the cylindrical measuring scale, a fixed measuring scale gauge is vertically arranged at one end, far away from the cylindrical measuring scale, of the sliding scale, and a movable measuring scale gauge is slidably connected to the sliding scale. The present embodiment and the above embodiments have repeated operation steps, and the present embodiment is briefly described, and the rest of the schemes may be described with reference to the above embodiments. The device of this application has solved the easy deviation that produces of tortuous position of shoes when traditional manual direct measurement to and subjective factor's influence scheduling problem, and then guaranteed the accuracy and the validity of tortuous test.

It should be noted that, for simplicity of description, the method embodiments are described as a series of acts or combination of acts, but those skilled in the art will recognize that the present invention is not limited by the illustrated order of acts, as some steps may occur in other orders or concurrently in accordance with the embodiments of the present invention. Further, those skilled in the art will appreciate that the embodiments described in the specification are presently preferred and that no particular act is required to implement the invention.

For the device embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, refer to the partial description of the method embodiment.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

While preferred embodiments of the present invention have been described, additional variations and modifications of these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the embodiments of the invention.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or terminal. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or terminal that comprises the element.

The method for measuring the shoe zigzag position provided by the invention is described in detail, a specific example is applied in the method to explain the principle and the implementation mode of the invention, and the description of the example is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims

1. A method of measuring a shoe flexion position, the method being used to assist in determining the flexion position of a ball of a shoe when the shoe is being tested, the method comprising:

2. The method of claim 1, wherein the step of obtaining the shoe medial axis position, the shoe interior length value, and the shoe rear end thickness value comprises:

acquiring an external heel position and an external toe position, and determining the position of a central axis of the shoe according to the external heel position and the external toe position;

setting the distance from the inner heel to the inner toe cap to an inner length value of the shoe;

3. The method of claim 2, wherein said step of determining an inner heel location from said shoe medial axis location and said shoe rear thickness value comprises:

4. A method of measuring a shoe flexion position according to any one of claims 1 to 3, wherein said step of determining a flexion position corresponding to said shoe from a position of a medial axis of said shoe, a position of said internal heel counter and a value of an internal length of said shoe comprises: determining a flexion zone of the shoe based on the flexion position.

5. A shoe zigzag position measuring device is used for assisting a shoe to determine the zigzag position of a half sole part of the shoe when the shoe is tested, and is characterized by comprising a box body for containing the shoe and a measuring instrument for measuring the internal length value of the shoe and the thickness value of the rear end of the shoe;

6. The shoe zigzag position measuring device according to claim 5, wherein said transparent side walls include a first side wall and a second side wall oppositely disposed along a length direction of said bottom plate, a fixed side wall oppositely disposed along a width direction of said bottom plate, and a movable side wall for adapting said case to shoes of different sizes, said movable side wall movably connecting said first side wall and said second side wall along a length direction of said bottom plate.

7. The shoe flexion measuring device of claim 6, wherein a connection between the movable sidewall and the first sidewall and a connection between the movable sidewall and the second sidewall are provided with grooves that are open toward the base plate, respectively, for engaging the first sidewall and the second sidewall.

8. A shoe zigzag position measuring apparatus according to claim 6, wherein said moving side wall and said fixed side wall are respectively provided with a marking line for assisting marking, said marking line being provided in a vertical direction near said bottom plate position.

9. A shoe zigzag position measuring apparatus according to any one of claim 5, wherein said cylindrical measuring tape and said sliding tape are each etched with corresponding graduation marks.

10. A shoe zigzag position measuring apparatus according to any one of claims 5 to 9, wherein said base plate is provided with a marking paper instead.