KR20110005498U - Non contact type reflection color measuring system of tongue surface - Google Patents

Abstract

Non-Contact Tongue Surface Reflective Light Analysis System
NON CONTACT TYPE REFLECTION COLOR MEASURING SYSTEM OF TONGUE SURFACE
This design is a color analysis system using reflected light that acquires the color of the surface of the tongue, which is one of the methods of diagnosing and analyzing the surface color of the tongue. It is a non-contact tongue surface reflected light analysis system designed to analyze the surface color of the tongue simply and safely by improving the lighting.

Description

NON CONTACT TYPE REFLECTION COLOR MEASURING SYSTEM OF TONGUE SURFACE

The present invention is a color analysis system that uses the reflected light from the tongue surface to secure the diagnosis method of Seoljin, one of the traditional methods for diagnosing and diagnosing the surface color of the tongue with the naked eye. Two high-brightness white LED lights are applied to the tongue surface. Reflected light from the digital color sensor device is measured by reflecting the reflected light from the digital color sensor device into three primary wavelengths of red (R), green (G), and blue (B) to obtain color information of the reflected light on the tongue surface. The color information calculated using the statistical formula on the computer monitor is presented in the traditional Korean diagnostic method to perform the diagnosis, which is one of the traditional methods for the diagnosis of bacterial infection due to the contamination by skin contact. It is a non-contact tongue surface spectroscopy system that provides less concern, provides simple, accurate color information.

Traditionally, the diagnostic method of oriental medicine is the representative quaternary method of paperweight, manjin, and paperweight. Each of these diagnostic methods exists separately to determine more accurate symptoms and diagnosis by integrating complex information. It is more important to acquire and diagnose complex information than to analyze the human heart and thread with a single diagnostic method. It will be to pursue accurate oriental diagnosis. Seoljin traditionally judged the color and shape of tongues and tongue shape by the naked eye and the shape of the tongue to determine the human's heart and thread, and diagnosed the cold and heat of the five intestines. come. This is the color of the blood distributed in the tongue, such as veins, arteries, capillaries, etc., distributed out through the tongue tissue. It is red when the blood contains a lot of oxygen, and red blood cells containing oxygen due to poor blood circulation. This is due to the principle that the less the color appears dark red. However, until now, the color of light emitted from the tongue is measured by sticking the tongue out in a closed device to block the brightness and environment of surrounding light. Since the skin of the part is in close contact with the front of the device and only the surface of the measuring device and the tongue is separated from the external environment, it is necessary to contact a wide area of skin at a specific place on the front of the device. Also, in order to prevent infection through indirect contact, sterilize the contact surface between the device and skin or simply disinfect it with rubbing alcohol, etc. Measurements may be made due to possible infection concerns, discomforts, etc. Reluctant subjects tended to be very uncomfortable in practical terms.

Therefore, it is necessary to devise a non-contact method that can measure precisely the tongue surface color by a non-contact method to improve the existing hermetic measurement method and to perform precise measurement while preventing infection through the skin that may be caused by the contact method. Therefore, in the case of the lighting in the hermetic measuring device, the light is reflected from each other inside the hermetic wall and unnecessary light information other than the surface of the tongue may be introduced into the sensor to generate a measurement error. By devising a white LED (30) lighting to avoid the lighting method can be improved and improved to the lighting method with little change in the amount of light according to the use time, and then, the color sensor 50 used in this device is all colors High-brightness white with an optical wavelength of 400-720nm because the color sensor 50 can detect the three primary wavelengths of red (λρ = 615nm), green (λρ = 540nm), and blue (λρ = 465nm). The purpose of irradiating a fixed amount of white light on the surface of the tongue at a certain distance from the LED 30 and generating unnecessary light curtain effect by the direct light of the white LED, which is unnecessary unnecessarily inserted in the surroundings It has the effect of blocking the wavelength of light, so that only the reflected light reflected from the surface of the device and the tongue is focused as much as possible through the condenser lens 20, and the focused light is irradiated to the color sensor 50 so that the value of the analog physical quantity The purpose is to provide a function to obtain the color of the tongue by converting to a digital value.

The present invention for achieving the above object is a non-contact color sensor device 80 is a color sensor device 80 and light including two white light LED 30 and the condenser lens 20 and the color sensor 50 Optical data analysis small computer unit including a small computer unit 180, a control panel unit 150, a power supply unit 170, and a serial interface for transmitting the first analyzed information to a computer (primary analysis and conversion of the signal) 180), and when the color sensor unit 80 is viewed from the front, the white light LED 30 is emitted at a position of 15 mm on the left and right of the condenser lens 20, respectively, and the condenser lens 20 surface and tongue It is designed to measure the reflected light of the white light LED 30 in a non-contact manner within a distance to the surface within 100mm, so that the color of the surface of the tongue can be measured as precisely as possible.The specific color analysis range of the reflected light tongue is between .400nm and 720nm. Even the weak reflected light of the wavelength is precise O's reaction sensing device is highly sensitive light condensing device and the light available for analysis, and illumination is within a distance of 100mm and a focusing lens, and the lens and the tongue surface of the white-light LED (30) with a diameter less than 20mm.

The present invention as described above, in the measurement and analysis of the surface color of the tongue, in the case of the hermetic measurement method, by the non-contact improvement of the concern of the infection caused by the skin contact of the device and the subject to prevent the infection as much as possible, to prevent infection Various uncomfortable sterilization methods that must be carried out for this purpose can be omitted, which eliminates the worry of infection when measuring the subject, and when the light source device important for measuring the surface color of the tongue is closed, the sealed wall of the measuring device is It may be contaminated with foreign matter such as dust or reflected light may be generated on the wall inside the measuring device, and unnecessary reflected light other than the color of the tongue surface may be introduced into the sensor, causing measurement errors. However, the LED light source device designed as described above can minimize unnecessary reflections and use a white light LED with a constant amount of light, which can reduce errors caused by illumination light, so that accurate and pleasant measurement can be performed. Provide a safe way.

1 is a cross-sectional view of the color sensor device according to the spirit of the present invention
2 is a block diagram of a small computer unit according to the spirit of the present invention;
3 is a measurement example according to the spirit of the present invention
4 is an exemplary measurement distance according to the idea of the present invention

In the present invention, a method for realizing color analysis for analyzing the color of the tongue is described in detail as follows.

The present invention consists of a small computer unit 180, a color sensor unit 80, a light source device 30, an electric signal amplifier, an operation panel unit 150, a power supply unit 170, obtained from a color sensor device The three primary colors are transmitted through the interface of RS232C, and the information received from the analysis computer is easily determined by determining the color information of the tongue surface through a series of analysis.

The color sensor device 80 is composed of a high-brightness LED 30, a condenser lens 20, a color sensor 50, pressing the measurement start button, illuminates the high-brightness LED 30 for 10 seconds, unnecessary unnecessary inflow from the surroundings Light (light) is focused through the focusing lens 20 while the light is reflected and reflected on the surface of the tongue while blocking the light, and thus red (λρ = 615nm), green (λρ = 540nm) and blue (λρ = 465nm) Color analysis by the color sensor 50 is performed by analyzing the light collected from the color sensor 50, which can analyze the three primary wavelengths. The brightness of the color sensor device 80 is the illumination of the two high-brightness white LED 30 in the PWM (PULSE WIDTH MODULATION) method, the high-brightness LED lighting is automatically turned off after the measurement. The measured color information is converted into digital values by an A / D converter that converts analog values into digital values, and the converted data is sent to a data storage register of a small computer, and the data is temporarily stored.

The small computer unit 180 transmits analysis data through the RS232C interface by temporarily counting analysis data of electric signals of the color sensor and lighting by dedicated programming through an operation unit, and electrically monitors the device during operation. Prevents malfunction of the equipment to ensure normal operation.

* Spectral sensitivity performance condition of color sensor

Lighting source: High brightness white LED light source

Condensing Lens: FIELD ANGLE (incident light angle 20 degrees: H: 16, V: 12)

Spectral sensitivity wavelength: R = 590-720 nm G = 480-600 nm B = 400-540 nm

Maximum Sensitivity Wavelength: R = 615 nm G = 540 nm B = 465 nm

The color sensor is designed to show the reception measurement performance under the reflected light condition.

* Performance condition of small computer unit 180

The performance of the small computer unit 180 includes a calculation function, a data transmission function, and the operation control by programming.

1.FIELD ANGLE = the angle at which the reflected light is focused (incident light angle)
2. H = horizontal angle
3. V = Vertical Angle
4. English abbreviation for R = Red, English abbreviation for G = Green, and English abbreviation for B = Blue.
5. High brightness white LED light source = (Light Emitting Diode) Light emitting diode that emits white light consisting of semiconductor elements
6. High brightness = Brightness of brightness per unit area of light source

Claims (3)

In the non-contact optical sensor device designed to improve the hermetic measuring device to be non-contact and prevent bacterial infection due to contamination by the measuring device and skin contact, the device for measuring the color of the surface of the tongue using the reflected light,
Non-contact surface reflectance light analysis, characterized in that the high-brightness white LED (20) illumination on the tongue surface to reflect the reflected light reflected from the tongue surface with the condenser lens 20, the color of the reflected light with the color sensor (50) system Claim 1

Non-contact tongue surface reflection light analysis system, characterized in that a plurality of high-brightness white LEDs 20 are arranged one by one left and right at a distance of 15 mm around the condenser lens 20. Claim 1

Non-contact tongue surface reflection light analysis system characterized in that the distance between the condenser lens 20 and the surface of the tongue is measured within 100mm

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