KR20210058402A - Foot size automatic measurement technology - Google Patents

Abstract

The present invention relates to an automatic foot size measuring device, and more particularly, to an automatic foot size measuring device capable of manufacturing more accurate customized shoes by greatly compensating for the inconvenience of a conventional manual foot size measuring stand and compensating for the disadvantages of a complex and expensive optical foot size measuring device to measure not only the shape of the foot but the weight distributed to each part of the foot. The automatic foot size measurement device comprises a foot plate, a measuring protrusion unit, a guide unit, an inlet, a weight shape measuring unit, a data transmitting unit, a data receiving unit, a control unit, an interface unit, and a storage unit.

Description

Foot size automatic measurement technology

The present invention relates to an automatic foot size measuring device, and more particularly, by significantly compensating for the inconvenience of a conventional manual foot size measuring device and compensating for the disadvantages of a complex and expensive optical foot size measuring device, not only the shape of the foot, but also the angle of the foot. The present invention relates to an automatic foot size measuring device that measures the weight distributed over a region to make more accurate customized shoes. Conventionally, a measuring device capable of grasping and classifying the shape of the foot is not common, and even if there is, it was inconvenient.

In other words, as a conventional technology, the foot size measuring device, registered in the Republic of Korea Silent Model Registration No. 20-0249836, must confirm that the device applies the width and length of the foot to the measuring axis, and push the bar to check with a scale on the floor. It was quite inconvenient to follow. In addition, although an optical foot size measuring device is being introduced, it is a device with high accuracy, but it is large and inconvenient to measure only the size of the foot, and the cost of the equipment is very expensive. Therefore, there were various problems in measuring the size of the foot easily, conveniently and accurately anytime, anywhere, and it is not possible to measure the height of the sole of the foot according to the shape of the foot, so it is possible to manufacture customized shoes or insoles according to different foot types for each person. It was a difficult situation.

Give it for the convenience of busy modern people

Online without using offline

Easily fit your foot shape

Technology development for customers who want to buy the best shoes

This was conceived to solve the above problems, and the purpose of this is to develop technology for customers who want to conveniently purchase the best shoes for their foot shape when purchasing offline shoes.

Give it for the convenience of busy modern people

Online without using offline

Easily fit your foot shape

Technology development for customers who want to buy the best shoes

As discussed above, the automatic foot size measurement device of the present invention,

The effect of greatly compensating the inconvenience of a manual foot size measuring table and making more accurate customized shoes by measuring not only the shape of the foot but also the weight distributed in each part of the foot by complementing the shortcomings of the complicated and expensive optical foot size measuring device. There is.

1 is a view of an apparatus for automatically measuring foot size according to an embodiment of the present invention.
This is the overall configuration diagram.

The automatic foot size measurement device of the present invention for achieving the above enemy,

In the foot size measuring device,

A foot plate on which the foot is placed to measure the shape and weight of the foot;

It is located inside the inlet and is a protrusion for measuring the shape of the foot and the weight of the contacted foot.

A guide part for enclosing the measuring protrusion so that the measuring protrusion can be operated up and down and preventing separation of the measuring protrusion during a reciprocating motion,

An inlet located above the guide part and located at an inlet through which the measuring protrusion moves reciprocally,

A weight type measurement unit that is located below the measurement protrusion and detects a position where the measurement protrusion moves with the strength of the magnetic field and transmits a data value,

A data transmission unit for transmitting a data value transmitted from the weight shape measurement unit to a control unit,

A data receiving unit for receiving a data value transmitted through the data transmitting unit and transmitting it to a control unit,

A control unit for receiving the data value transmitted from the data receiving unit to control the storage of the data, and to transmit the analysis data generated by analyzing the data measured at each measurement protrusion to a computer connected through an interface unit;

An interface unit for interfacing the analysis data transmitted from the control unit with a connected computer,

And a storage unit configured to include a database storing analysis data transmitted under the control of the control unit, and storing data information measured by the measurement protrusion under the control of the control unit.

At this time, the weight shape measuring unit

In order to measure the shape of the foot under the control of the control unit, the measurement protrusion is moved to the contact part of the foot, and the data at the moment of contact with the foot is measured and transmitted.In order to measure the weight of each part of the foot, the part of the foot contacted with the measuring protrusion is It is characterized in that the data is measured and transmitted until it is lifted.

In addition, the weight shape measuring unit

A solenoid part that converts reciprocating kinetic energy by applying electrical energy,

It characterized in that it is configured to include a position sensor unit for detecting a position to which the measuring protrusion is moved according to the movement of the solenoid unit.

Hereinafter, a preferred embodiment of an apparatus for automatically measuring foot size according to the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall configuration diagram of an apparatus for automatically measuring foot size according to an embodiment of the present invention.

Figure 2 is a detailed view showing in detail the weight form measuring unit of the automatic foot size measuring device according to an embodiment of the present invention.

As shown in Figure 1, the present inventors foot size automatic measurement device,

In the foot size measuring device,

The foot plate 100 on which the foot is placed in order to measure the shape and weight of the foot;

A measuring protrusion 110 that is located inside the inlet and performs a vertical reciprocation motion as a protrusion for measuring the shape of the foot and the weight of the contacted foot, but protrudes outside the inlet during measurement,

A guide part 120 for surrounding the measuring protrusion so that the measuring protrusion can be operated vertically and preventing separation of the measuring protrusion during a reciprocating motion,

An inlet 130 located above the guide part and located at an inlet through which the measuring protrusion moves reciprocally,

A weight type measurement unit 140 located below the measurement protrusion to detect a position where the measurement protrusion moves with the strength of the magnetic field and transmit a data value,

A data transmission unit 150 for transmitting a data value transmitted from the weight shape measurement unit to a control unit,

A data receiving unit 200 for receiving a data value transmitted through the data transmitting unit and transmitting it to a control unit,

A control unit 210 for receiving the data value transmitted from the data receiving unit to control the storage of the data, and for controlling to transmit the analysis data generated by analyzing the data measured at each measurement protrusion to a computer connected through the interface unit,

An interface unit 230 for interfacing the analysis data transmitted from the control unit with a connected computer,

And a storage unit 220 configured to include a database storing analysis data transmitted under the control of the control unit, and storing data information measured by the measurement protrusion under the control of the control unit. do.

At this time, the weight shape measuring unit

In order to measure the shape of the foot under the control of the control unit, the measurement protrusion is moved to the contact part of the foot, and the data at the moment of contact with the foot is measured and transmitted. It is characterized in that the data is measured and transmitted until it is lifted.

In addition, the weight shape measuring unit

A solenoid part that converts reciprocating kinetic energy by applying electrical energy,

It characterized in that it is configured to include a position sensor unit for detecting a position to which the measuring protrusion is moved according to the movement of the solenoid unit.

As shown in Fig. 1, the automatic foot size measurement apparatus according to an embodiment of the present invention includes a foot plate 100 on which a foot is placed, and a computer for displaying measured data to a lion.

To describe in more detail based on what is shown in FIGS. 1 to 2, the configuration for measuring the shape and weight of the foot is

The foot plate 100 on which the foot is placed in order to measure the shape and weight of the foot;

A measuring protrusion 110 that is located inside the inlet and performs a vertical reciprocation motion as a protrusion for measuring the shape of the foot and the weight of the contacted foot, but protrudes outside the inlet during measurement,

A guide part 120 for surrounding the measuring protrusion so that the measuring protrusion can be operated vertically and preventing separation of the measuring protrusion during a reciprocating motion,

An inlet 130 located above the guide part and located at an inlet through which the measuring protrusion moves reciprocally,

A weight type measurement unit 140 located below the measurement protrusion to detect a position where the measurement protrusion moves with the strength of the magnetic field and transmit a data value,

It is a data transmission unit 150 that transmits the data value transmitted from the weight shape measurement unit to the control unit.

That is, when the measuring protrusion 110 protrudes upwards from the foot plate, a guide part surrounding the measuring protrusion is formed so that the measuring protrusion is moved up and down under the control of the controller according to the guidance of the guide part. One measurement protrusion is formed in a plurality on the foot plate, and the more the measurement protrusion is configured, the more accurate the measurement data value of the foot part measured through the measurement protrusion can be increased.

The weight shape measurement unit includes a solenoid unit that converts the measurement protrusion into reciprocating kinetic energy by applying electrical energy,

It characterized in that it is configured to include a position sensor unit for detecting a position to which the measuring protrusion is moved according to the movement of the solenoid unit.

The application of the electric energy is applied through a power supply unit (not shown), and a detailed description thereof will be omitted.

That is, when electric energy is applied to the weight shape measurement unit, the measurement protrusion moves. At this time, the moment it moves upward and touches the part of the foot where the measuring protrusion is in contact, it can no longer move unless a predetermined force is applied, so the distance from the lower end of the measuring protrusion to the upper end of the weight shape measuring part at that moment is sensed. Thus, it is transmitted to the data transmission unit 150.

Accordingly, the shape of the foot can be derived through the measurement protrusion to which the above-described foot portion is in contact.

3 is a view showing an example of measuring the shape and weight of the foot of the automatic foot size measuring apparatus according to an embodiment of the present invention.

As shown in Fig. 1 or 3, to explain an example of measuring the weight as well as the shape of the foot, the data value transmitted through the above-described data transmission unit is received by the data receiving unit 200 and transmitted to the control unit. .

At this time, the control unit 210 receives the data value transmitted from the data receiving unit to control the storage of the data, and controls to transmit the analysis data generated by analyzing the data measured at each measurement protrusion to the computer connected through the interface unit. It is done.

Meanwhile, a technique for measuring weight, which is another characteristic of the present invention, is as follows.

In order to measure the shape of the foot under the control of the control unit, the measurement protrusion is moved to the contact part of the foot, and the data at the moment of contact with the foot is measured and transmitted. The data is measured and transmitted until it is lifted.

For example, assuming that the body weight of the person to be measured is 100kg, 3,000 measuring protrusions are formed per foot plate, and if measured with two left and right, the total measuring protrusion is 6000, and it is distributed approximately 17g per one. Is assumed to be.

If the initial measurement protrusion moves to the area where the foot touches and measures the data at the moment of contact and transmits it, if you want to know the weight of the foot that the measurement protrusion touches, if you want to know the weight of the foot where the measurement protrusion touches, adjust the strength of the magnetic field and raise it to 18g. When the part is raised, the weight of the foot part that the measurement protrusion touches becomes 18g. In this way, if the strength of the magnetic field is raised until the last measuring protrusion is raised, and the weight at the moment the last measuring protrusion is raised is 20g, the position and number of the measuring protrusion corresponding to the 17g weight will be analyzed, and the measuring protrusion corresponding to the 18g weight. The location and the number of will be analyzed, and the location and number of the measuring protrusions corresponding to the 20g weight will be analyzed.

In other words, the moment the measuring protrusion touches the foot, the overall shape of the foot can be known, and the weight can be known at the moment the foot is lifted.

By receiving the data transmitted from the plurality of measurement protrusions through the control unit, analyzing the location where the measurement protrusions are located, and interfacing with the computer through the interface unit 230, the application program configured in the computer is based on the transmitted analysis data. When it is driven, it is output through the display of the computer.

The application program described above is a program capable of expressing not only the shape of the foot but also the height of the foot in three dimensions, and a means and method for processing three-dimensionally based on analysis data is a well-known technique, so a detailed description thereof will be omitted.

Those skilled in the art to which the present invention belongs to as described above will be able to understand that it can be implemented in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, the embodiments described above are exemplified in all respects and should be understood as non-limiting.

The scope of the present invention is indicated by the claims to be described later rather than the detailed description, and any changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts should be construed as being included in the scope of the present invention. do.

Claims (1)

In the foot size measuring device,
A foot plate on which the foot is placed to measure the shape and weight of the foot;
A measuring protrusion that is located inside the inlet and performs a vertical reciprocating motion as a protrusion for measuring the shape of the foot and the weight of the contacted foot, but protrudes outside the inlet when measuring;
A guide part surrounding the measuring protrusion so that the measuring protrusion can be operated vertically and preventing separation of the measuring protrusion during a reciprocating motion;
An inlet positioned above the guide portion and positioned at an inlet through which the measuring protrusion moves reciprocally;
A weight shape measuring unit located under the measuring protrusion and detecting a position at which the measuring protrusion moves with the strength of the magnetic field and transmitting a data value;
A data transmission unit for transmitting a data value transmitted from the weight shape measurement unit to a control unit;
A data receiving unit for receiving a data value transmitted through the data transmitting unit and transmitting it to a control unit;
A control unit for receiving the data value transmitted from the data receiving unit, controlling the storage of data, and transmitting the analysis data generated by analyzing the data measured at each measurement protrusion to a computer connected through an interface unit;
An interface unit for interfacing the analysis data transmitted from the control unit with a connected computer;
Automatic foot size, characterized in that it comprises a storage unit configured with a database storing analysis data transmitted under the control of the control unit and storing data information measured by the measurement protrusion under the control of the control unit Measuring device.

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