KR20070008500A - Supersonic foot size auto measurement system - Google Patents

Abstract

A supersonic system for automatically measuring a foot size is provided to manufacture an accurate tailor-made footwear by using three-dimensional size and weight. In a supersonic system for automatically measuring a foot size, a foot plate(100), on which a foot is placed, measures a shape and a weight of the foot. A foot sidewall plate receives the foot for measuring a length, a width, and a height of the foot. A supersonic measuring unit(170), placed on four sides of the foot sidewall plate, measures a three-dimensional size of the foot including the length, width, and height of the foot. A measurement projection unit(110) moves up and down for measuring the shape of the foot and the weight of the portion of the contacted foot, wherein the measurement projection unit(110) is projected outside when performing a measuring operation. A guide unit surrounds the measurement projection unit(110) to move up and down. The entrance hole is placed on an upper part of the guide unit. A weight-type measuring unit placed on a lower part of the measurement projection unit(110), detects a position that the measurement projection unit(110) moves according to an intensity of magnetic field and transmits data values. A measurement projection data transceiver(200) transmits the data value, transmitted from the weight-type measuring unit to a control unit(210). The control unit(210) receives the data value, analyzes the data measured by the measurement projection unit(110), and transmits the analyzed data to a connected computer through an interface unit(230). A projection control unit(240) operates the measurement projection unit(110) according to a projection control signal from the control unit(210). A measured-information database contains the analyzed data according to the control of the control unit(210) and stores the data information of the measurement projection unit(110). A storing unit(220) comprises an ideal foot information database containing the information such as a weight and pose of an ideal foot part.

Description

Ultrasonic foot size auto measurement system

1 is an overall configuration of the ultrasonic foot size automatic measurement system according to an embodiment of the present invention.

2 is a block diagram of the ultrasonic foot size automatic measurement system according to an embodiment of the present invention.

Figure 3 is a detailed view showing in detail the weight shape measurement unit of the ultrasonic foot size automatic measurement system according to an embodiment of the present invention.

4 is a view showing an example of measuring the shape and weight of the foot of the ultrasonic foot size automatic measurement system according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: foot plate 110: measuring projection

120: guide portion 130: inlet

140: weight measurement unit 160: foot wall plate

170: ultrasonic measurement unit 200: measurement projection data transmission and reception unit

210: control unit 220: storage unit

230: interface unit 240: protrusion control unit

300: computer

The present invention relates to an ultrasonic foot size automatic measuring system, and more particularly, to greatly compensate for the inconvenience of the conventional manual foot size measuring table and to compensate for the disadvantages of the complicated and expensive optical foot size measuring device, as well as the shape of the foot, The present invention relates to an ultrasonic foot size automatic measurement system that can measure a three-dimensional size of the foot including length, width, and height to measure the weight distributed to each part of the foot to produce a more precise customized shoe.

Conventionally, a measuring device that can grasp and classify the shape of the foot is not common.

In addition, it was inconvenient to use.

That is, in the conventional technology, the foot size measuring device of Korean Utility Model Registration No. 20-0249836 should use the device to check the width and length of the foot on the measurement axis and push the bar to check the scale on the floor surface. It was quite inconvenient to follow.

In addition, although the optical foot size measuring device is introduced, it is a high accuracy device, but it is large and inconvenient to use only to measure the size of the foot, and also has a problem that the price of the equipment is very expensive.

Therefore, there are various problems in measuring foot size anytime, anywhere, easily, simply and accurately, and it is impossible to measure the height of the sole surface according to the shape of the foot. It was a tough situation.

Accordingly, the present invention has been made to solve the above conventional problems,

The purpose of the present invention is to measure the weight distributed over each part of the foot by measuring the three-dimensional size of the foot, including the length, width, height of the foot, as well as the shape of the foot 3 To provide dimensional size and weight.

Ultrasonic foot size automatic measurement system of the present invention for achieving the above object,

In the foot size measuring device,

Foot plate 100 in which the foot is placed to measure the shape and weight of the foot;

A foot wall plate 160 for seating the foot to measure the length, width, and height of the foot;

Ultrasonic measurement unit 170 is located on the four side wall plate, measuring the three-dimensional size of the foot, including the length, width, height of the foot;

Located in the inlet, the measuring projection 110 is projected to the outside of the inlet during the reciprocating movement up and down as a projection for measuring the shape of the foot and the weight of the foot portion in contact with;

A guide part 120 surrounding the measurement protrusion so that the measurement protrusion is operated up and down and preventing the measurement protrusion from being separated during the reciprocating motion;

An inlet port 130 positioned at an upper portion of the guide part and positioned at an inlet at which the measuring protrusion reciprocates;

A weight shape measurement unit 140 positioned below the measurement protrusion to detect a position where the measurement protrusion moves with the strength of the magnetic field and to transmit a data value;

A measurement projection data transmission and reception unit for transmitting a data value transmitted from the weight type measurement unit to a control unit, receiving a control signal of the projection control unit, and transmitting a control signal to the measurement projection unit to operate the measurement projection unit;

Receive the data value transmitted from the measurement projection data transmission and reception unit to control the storage of data, and to control the analysis data generated by analyzing the data measured in each measurement projection unit to the connected computer through the interface unit, ideally caught A control unit 210 which transmits operation data to the protrusion control unit so that the data measured on the basis of the information database matches the ideal data value;

A projection control unit 240 for operating the measurement projection unit by a projection control signal transmitted from the control unit;

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

A measurement information database storing analysis data transmitted under the control of the control unit, and storing data information measured by the measuring protrusion under control of the control unit;

It includes a storage unit 220 including an ideal detection information database for storing the information about the weight and posture of the ideal foot area that can create the ideal foot posture and can distribute the comfort, balance, load throughout the body Characterized in that the configuration.

At this time, the weight shape measuring unit,

In order to measure the shape of the foot under the control of a control unit, the measuring protrusion is moved to the area where the foot is in contact with the foot, and the data of the moment when the foot is in contact with the measurement is measured. Characterized in that to transmit the data up to lift.

In addition, the weight shape measuring unit,

A solenoid part for converting into reciprocating kinetic energy by applying electric energy;

Characterized in that it comprises a position sensor for detecting a position to move the measurement projection according to the movement of the solenoid portion.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention ultrasonic foot size automatic measurement system.

1 is an overall configuration of the ultrasonic foot size automatic measurement system according to an embodiment of the present invention.

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

Foot plate 100 is placed on the foot to measure the shape and weight of the foot and the foot wall plate 160 to seat the foot to measure, including the length, width, height of the foot and the foot wall plate is located on the four sides, the length of the foot, It is configured to include an ultrasonic measuring unit 170 for measuring the three-dimensional size of the foot, including the width, height.

In other words, by measuring the three-dimensional size of the foot through the ultrasonic measuring unit and by analyzing the data on the comparison with the ideal data of the foot and transmits a control signal based on the ideal data on the measuring projection to operate the respective measuring projections Keep it comfortable so you can use it for customization.

2 is a block diagram of the ultrasonic foot size automatic measurement system according to an embodiment of the present invention.

In the foot size measuring device,

Foot plate 100 in which the foot is placed to measure the shape and weight of the foot;

A foot wall plate 160 for seating the foot to measure the length, width, and height of the foot;

Ultrasonic measurement unit 170 is located on the four side wall plate, measuring the three-dimensional size of the foot, including the length, width, height of the foot;

Located in the inlet, the measuring projection 110 is projected to the outside of the inlet during the reciprocating movement up and down as a projection for measuring the shape of the foot and the weight of the foot portion in contact with;

A guide part 120 surrounding the measurement protrusion so that the measurement protrusion is operated up and down and preventing the measurement protrusion from being separated during the reciprocating motion;

An inlet port 130 positioned at an upper portion of the guide part and positioned at an inlet at which the measuring protrusion reciprocates;

A weight shape measurement unit 140 positioned below the measurement protrusion to detect a position where the measurement protrusion moves with the strength of the magnetic field and to transmit a data value;

A measurement projection data transmission and reception unit for transmitting a data value transmitted from the weight type measurement unit to a control unit, receiving a control signal of the projection control unit, and transmitting a control signal to the measurement projection unit to operate the measurement projection unit;

Receive the data value transmitted from the measurement projection data transmission and reception unit to control the storage of data, and to control the analysis data generated by analyzing the data measured in each measurement projection unit to the connected computer through the interface unit, ideally caught A control unit 210 which transmits operation data to the protrusion control unit so that the data measured on the basis of the information database matches the ideal data value;

A projection control unit 240 for operating the measurement projection unit by a projection control signal transmitted from the control unit;

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

A measurement information database storing analysis data transmitted under the control of the control unit, and storing data information measured by the measuring protrusion under control of the control unit;

It includes a storage unit 220 including an ideal detection information database for storing the information about the weight and posture of the ideal foot area that can create the ideal foot posture and can distribute the comfort, balance, load throughout the body Characterized in that the configuration.

The ultrasonic measuring unit 170 is located on the four foot wall plates, and measures the three-dimensional size of the foot including the length, width, and height of the foot. The ultrasonic measuring unit is composed of a transmitting unit and a receiving unit. Ultrasonic waves are transmitted from the receiver to receive the reflected ultrasonic waves through the receiver and transmit the ultrasonic waves to the controller. Then, the control unit receives the information on the weight and posture of each ideal foot portion from the ideally detected information database of the storage unit and compares the information and transmits a control signal to the protrusion control unit to operate the measuring protrusions to each part of the sole of the foot. As a result, the sole of the foot is ideally adjusted by raising or lowering the projection.

The measuring principle and configuration of the ultrasonic measuring unit is already well known to those skilled in the art, and a detailed description thereof will be omitted.

Figure 3 is a detailed view showing in detail the weight shape measurement unit of the ultrasonic foot size automatic measurement system according to an embodiment of the present invention.

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 area where the foot is in contact, and the data at the moment of foot contact is measured and transmitted, and the foot area where the measurement protrusion is in contact with each other to measure the weight of each part of the foot Measure and transmit data until lifting.

In addition, the weight shape measuring unit

A solenoid part for converting into reciprocating kinetic energy by applying electric energy;

Characterized in that it comprises a position sensor for detecting a position to move the measurement projection according to the movement of the solenoid portion.

As shown in FIG. 2, the ultrasonic foot size automatic measuring system according to an embodiment of the present invention includes a foot plate 100 on which the foot is placed, and a foot for seating the foot to measure the length, width, and height of the foot. It is located on the foot wall plate 160 and the four foot wall plate, the ultrasonic measurement unit 170 for measuring the three-dimensional size of the foot including the length, width, height of the foot and the data measured by the foot plate and the ultrasonic measurement unit It consists of a computer for display to a user.

To explain in more detail based on the one shown in Figures 1 to 3, the configuration for measuring the shape and weight of the foot is

Foot plate 100 in which the foot is placed to measure the shape and weight of the foot;

Located inside the inlet, and the reciprocating movement up and down as a projection for measuring the shape of the foot and the foot portion in contact with the measuring projection (110) protruding out of the inlet during measurement, and

A guide portion 120 for wrapping the measuring protrusion so that the measuring protrusion can be operated up and down and preventing the measuring protrusion from being separated during the reciprocating motion;

Located in the upper portion of the guide, the inlet 130 is located at the inlet to the measuring projection reciprocating movement,

A weight shape measuring unit 140 positioned below the measuring protrusion to detect a position where the measuring protrusion moves at the strength of the magnetic field and transmitting a data value;

The data transmission unit 150 transmits the data value transmitted from the weight shape measurement unit to the control unit.

That is, when the measuring protrusion 110 protrudes to the upper side of the foot plate, the guide portion surrounding the measuring protrusion may be configured to protrude correctly, so that the measuring protrusion moves up and down under the control of the controller according to the guide portion. A plurality of measuring protrusions are formed on the foot plate. The more the measuring protrusions are configured, the higher the accuracy of the measured data value of the foot portion measured through the measuring protrusions.

The weight shape measuring unit and the solenoid unit for converting the measurement projection unit into reciprocating kinetic energy by applying electrical energy;

Characterized in that it comprises a position sensor for detecting a position to move the measurement projection according to the movement of the solenoid portion.

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

In other words, when the electrical energy is applied to the weight measurement unit, the measurement protrusion moves. At this time, when moving to the upper side and touching the foot where the measuring protrusion is in contact, it can no longer move when a predetermined force is not applied. Therefore, the distance from the lower end of the measuring protrusion to the upper end of the weight type measuring part is sensed This is transmitted to the data transmitter 150.

Therefore, the shape of the foot can be derived through the measuring protrusion in which the above-mentioned foot is in contact.

4 is a view showing an example of measuring the shape and weight of the foot of the ultrasonic foot size automatic measurement system according to an embodiment of the present invention.

As shown in FIG. 2 or FIG. 4, not only the shape of the foot but also an example of measuring the weight, the data value transmitted through the measurement protrusion data transmission and reception unit 200 described above is transmitted to the controller.

In this case, the control unit 210 receives the data value transmitted from the measurement protrusion data transmission and reception unit 200 to control the storage of data, and analyzes the data measured by the measurement protrusions and accesses the analysis data generated through the interface unit. To be transferred to the computer.

On the other hand, the technique for measuring the weight of another feature 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 area where the foot is in contact, and the data at the moment of foot contact is measured and transmitted, and the foot area where the measurement protrusion is in contact with each other to measure the weight of each part of the foot The data up to the lifting is measured and transmitted.

For example, assuming that the weight of a person to be measured is 100 kg, 3000 measuring protrusions are formed per foot plate, and if measuring with two left and right sides, the total measuring protrusions are 6000 and distributed about 17g each. Assume that you do.

If the first measuring protrusion moves to the part where the foot is in contact and measures and transmits the data at the time of contact, if it is 17g, if you want to know the weight of the foot where the measuring protrusion is touching, adjust the magnetic field strength to raise it to 18g. When the weight rises, the weight of the foot where the corresponding measurement protrusion reaches is 18g. In this way, if the strength of the magnetic field is increased until the last measuring protrusion rises and the weight of the moment when the last measuring protrusion rises is 20g, the position and number of measuring protrusions corresponding to the weight of 17g will be analyzed, and the measuring protrusion corresponding to the weight of 18g The position and number of the will be analyzed, and the position and number of the measuring projection corresponding to the weight of 20g will be analyzed.

In other words, when the measuring projection touches the foot, the overall shape of the foot can be known, and the weight can be known at the moment of lifting the foot.

Receives the data transmitted from the plurality of measurement projections through the control unit and analyzes the location where the measurement projections are located to interface with the computer through the interface unit 230 to drive the application program configured in the computer based on the analysis data transmitted It is output through the display unit of the computer.

The application program is a program that can express not only the shape of the foot but also the height of the sole in three dimensions. Means and methods for three-dimensional processing based on analysis data are well known techniques, and thus detailed description thereof will be omitted.

Those skilled in the art to which the present invention pertains as described above may understand that the present invention may be implemented in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not restrictive.

The scope of the invention is indicated by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the invention. do.

As described above, the ultrasonic foot size automatic measurement system of the present invention,

The manual foot size measuring table greatly compensates for the inconvenience and compensates for the disadvantages of the complicated and expensive optical foot size measuring device. It measures not only the shape of the foot but also the three-dimensional size of the foot, including the length, width, and height of the foot. By measuring the weight of the distribution to provide a more accurate three-dimensional size and weight, including the shape and length, width, height of the foot, it is effective to make accurate shoes.

Claims (3)

In the foot size measuring device, Foot plate 100 in which the foot is placed to measure the shape and weight of the foot; A foot wall plate 160 for seating the foot to measure the length, width, and height of the foot; Ultrasonic measurement unit 170 is located on the four side wall plate, measuring the three-dimensional size of the foot, including the length, width, height of the foot; Located in the inlet, the measuring projection 110 is projected to the outside of the inlet during the reciprocating movement up and down as a projection for measuring the shape of the foot and the weight of the foot portion in contact with; A guide part 120 surrounding the measurement protrusion so that the measurement protrusion is operated up and down and preventing the measurement protrusion from being separated during the reciprocating motion; An inlet port 130 positioned at an upper portion of the guide part and positioned at an inlet at which the measuring protrusion reciprocates; A weight shape measurement unit 140 positioned below the measurement protrusion to detect a position where the measurement protrusion moves with the strength of the magnetic field and to transmit a data value; A measurement projection data transmission and reception unit for transmitting a data value transmitted from the weight type measurement unit to a control unit, receiving a control signal of the projection control unit, and transmitting a control signal to the measurement projection unit to operate the measurement projection unit; Receive the data value transmitted from the measurement projection data transmission and reception unit to control the storage of the data, and to control the analysis data generated by analyzing the data measured in each measurement projection unit to the connected computer through the interface unit, ideally caught A control unit 210 which transmits operation data to the protrusion control unit so that the data measured on the basis of the information database matches the ideal data value; A projection control unit 240 for operating the measurement projection unit by a projection control signal transmitted from the control unit; An interface unit 230 for interfacing the analysis data transmitted from the control unit with a connected computer; A measurement information database storing analysis data transmitted under the control of the control unit, and storing data information measured by the measuring protrusion under control of the control unit; It includes a storage unit 220 including an ideal detection information database for storing the information about the weight and posture of the ideal foot area that can create the ideal foot posture and can distribute the comfort, balance, load throughout the body Ultrasonic foot size automatic measurement system, characterized in that configured to. The method of claim 1, The weight shape measuring unit, In order to measure the shape of the foot under the control of a control unit, the measuring protrusion is moved to the area where the foot is in contact with the foot, and the data of the moment when the foot is in contact with the measurement is measured. Ultrasonic foot size automatic measurement system, characterized in that for transmitting and measuring the data up to lift. The method of claim 1, The weight shape measuring unit, A solenoid part for converting into reciprocating kinetic energy by applying electric energy; Ultrasonic foot size automatic measurement system, characterized in that it comprises a position sensor for detecting a position to move the measurement projection according to the movement of the solenoid portion.

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