KR101335321B1 - Active oxygen analyzer - Google Patents

Abstract

In the present invention, it is possible to test for free radicals through simple urine collection, allowing quick and easy test for free radicals in hospitals as well as health institutions and homes. It is possible to prevent various diseases through periodic and continuous pre-tests on the user's own disease, as well as to check whether there is an active oxygen analyzer that can efficiently manage their health due to various stresses or high activity. It is about.
The active oxygen analyzer of the present invention includes a lower cover housing 1100 and a dark cover module 1200 installed at an upper portion of the lower cover housing to block light and electromagnetic waves from the outside, and to position a light source and a light receiving sensor. ), A control unit 1300 fixedly installed on the upper part of the darkroom module, and an upper cover housing 1400 installed on the upper part of the lower cover housing to protect the darkroom module and the control unit therein, and installed in the control unit. The light receiving sensor is a digital color sensor 1320, and the digital color sensor is equipped with an IR-Blocking Filter to block infrared rays disturbing the red band which is an effective spectrum distribution band of active oxygen. do.

Description

Active Oxygen Analyzer and Analysis Method for Active Oxygen Using It {ACTIVE OXYGEN ANALYZER}

The present invention relates to an active oxygen analyzer through the analysis of urine in the analysis device for testing the active oxygen in the body and an active oxygen analysis method using the same.

Recently, the cause of most diseases is known as free radicals, but we cannot live without oxygen, and oxygen can be said to be a double-edged knife that turns into free radicals that eat our bodies.

These free radicals are highly reactive oxygen and are closely related to heart disease and stroke caused by atherosclerosis, adult diseases such as diabetes and obesity, and most diseases such as cancer and aging.

To this end, people need not know enough about nutrition and health knowledge that they have known so far in order to maintain their health without disease, and they need to live as much as possible without knowledge of free radicals and the year to generate free radicals in the body. There is.

In addition to preventing harmful oxygen, active measures to maintain health are needed, such as increasing antioxidants in the body and enhancing the body's antioxidant system function. For this active countermeasure, an analyzer capable of testing free radicals in the body is needed.

Conventionally, as an example of commercially available methods for analyzing such active oxygen, blood is collected, a primary reaction reagent is added, mixed, and then put into a centrifuge, centrifugation of plasma and blood cells, and secondary to plasma and blood cells separated. After the reaction reagent is added and mixed, active oxygen is analyzed after a certain time.

Such a conventional active oxygen analyzer is known as the "FORM (series)" introduced at the 'anti-aging Expo 2009' in Meditime, by measuring the reflection spectrum through a spectrophotometer (spectromater), a conventional chemical equipment Analyze free radicals in the body.

In the conventional analysis using an active oxygen analyzer for accurate analysis of active oxygen, the procedure is very complicated such as the need to take blood and wait for a predetermined time, and then add a reaction reagent, which makes it difficult for the general public to directly measure the active oxygen. have.

In addition, the conventional apparatus for the analysis of active oxygen is expensive, and the analytical method also has a problem in that time and cost are complicated because the reagents and procedures used are complicated.

That is, such a conventional active oxygen analysis device and method is only possible by a medical institution or a professional for the reasons described above, there is a problem that the general public is difficult to use for health care.

The present invention has been devised to solve the above problems, it is not necessary to collect blood for the test for free radicals, the analysis of the same as the analysis of active oxygen by measuring the active oxygen reactive substances in the urine blood collection As a result, it is possible to save time and money, and to provide an active oxygen analyzer and an active oxygen analysis method using the same, which is easy for the general public to directly measure active oxygen.

Another object of the present invention is to provide an active oxygen analyzer capable of analyzing active oxygen without using a centrifuge and an expensive chemical analyzer, and to analyze the active oxygen quickly and simply. There is this.

In addition, the present invention enables quick and easy free radical testing, such as hospitals, health institutions, homes and the like to determine whether the current patient or his or her health condition and the likelihood of the disease, as well as whether the user's own disease The purpose of this study is to provide an active oxygen analyzer and an active oxygen analysis method using the same, which enables prevention of various diseases through periodic and continuous pre-tests, as well as efficient management of one's own health due to various stresses and high activities. have.

Active oxygen analyzer according to the present invention for achieving the above object, the lower cover housing, is installed on the upper portion of the lower cover housing and configured to block light and electromagnetic waves from the outside, the light source and the light receiving sensor is located The dark room module, a control unit fixed to the upper portion of the dark room module, and the upper cover housing is installed on the upper portion of the lower cover housing to protect the dark room module and the control unit, the light receiving sensor installed in the control unit A digital color sensor, the digital color sensor is characterized in that it further comprises an IR-Blocking Filter (IR-Blocking Filter) to block the infrared rays disturbing the red band which is the effective spectrum distribution band of the active oxygen.

Here, the dark room module of the active oxygen analyzer according to the present invention is mounted on the inner upper surface of the lower cover housing, the bottom cover of the rack gear is formed, the push cap is installed on the inner rear of the lower tray cover, and It is installed on the upper surface of the lower cover of the tray is installed to enter and exit, and the rear end of the strip conveying tray having a hook to be detachably fixed to the push cap, and the end of the leaf spring being pulled out and fixed to the lower portion of the strip conveying tray A seat spring fixed to the lower tray cover, and a rack gear formed on the lower tray cover such that the seat spring is fixed to the lower portion of the strip conveying tray and protrudes slowly when the strip conveying tray protrudes from the side of the lower cover housing by the seat spring. An oil damper adapted to rotate in engagement with the light source, LED sensor board for supplying power from the fisherman, and is fixed to the upper portion of the lower cover of the tray and configured to block light and electromagnetic waves from the outside, LED on the upper portion so that the light receiving sensor provided in the lower part of the light source and the control unit is located It characterized in that it has a tray upper cover formed with a sensor board mounting portion and a light receiving sensor seat.

And the strip transfer tray of the active oxygen analyzer according to the present invention is characterized in that the strip support is further installed detachably.

In addition, the active oxygen analyzer according to the present invention is a weight member installed on the upper portion of the lower cover housing for weight increase, RF board and ANT board is further installed to send and receive wireless communication and personal details data on the upper portion of the control unit. It is done.

On the other hand, the upper portion of the upper cover housing is characterized in that it further comprises a display unit which is integrally installed so as to be able to check the converted data from the control unit.

In addition, the active oxygen analysis method through the urine test according to the present invention, the active oxygen analysis sample strip soaked with urine collected for the active oxygen test is placed on the strip transfer tray with a strip support on the lower part of the dark room module for sample analysis When the sample strip is input to the dark room module for sample analysis, the sample inspection unit is irradiated by SM chip LED, which is a light source (light emitting module) shined through the incident angle of 60 °, and the discoloration degree of the sample strip is perpendicular to the sample strip surface. Extracting RGB values by a digital color sensor having an IR-Blocking Filter, which is a light receiving sensor, and controlling the RGB values of the sample strips read by the digital color sensor, which is a light receiving sensor of the sample inspection unit. Analyzing and converting the data into numerical values in comparison with the medical diagnostic data server, and performing medical diagnosis by the controller. Through the process of precise comparison correction, confirmation, characterized in that it comprises a step displayed through the output device, such as LCD, printer.

As described above, according to the active oxygen analyzer of the present invention and an active oxygen analysis method using the same, there is no need to collect blood for the active oxygen test, and the active oxygen can be measured by measuring the active oxygen reactant in the blood to analyze the active oxygen. As a result of the analysis as described above, time and cost can be saved, and it is also easy for the general public to directly measure active oxygen.

According to the active oxygen analyzer of the present invention and the active oxygen analysis method using the same, it is possible to analyze the active oxygen without using a centrifuge and an expensive chemical analyzer, and there is an effect of analyzing the active oxygen quickly and simply.

According to the active oxygen analyzer of the present invention and an active oxygen analysis method using the same, it is possible to quickly and easily check free radicals, such as a hospital, a health institution, a home, etc. Of course, due to the periodic and continuous pre-check of the user's own disease, it is possible to prevent various diseases, as well as to effectively manage their own health due to various stress or high activity.

1 is a perspective view showing an active oxygen analyzer according to an embodiment of the present invention,
Fig. 2 is an exploded perspective view of Fig. 1,
3 is an exploded perspective view showing the darkroom module of FIG.
4 is a perspective view showing a light source provided in the LED sensor board of FIG.
5 is a perspective view illustrating a light receiving sensor of the control unit of FIG. 2;
6 is a perspective view showing an active oxygen analyzer according to another embodiment of the present invention.

Hereinafter, an active oxygen analyzer according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing an active oxygen analyzer according to an embodiment of the present invention, Figure 2 is an exploded perspective view of Figure 1, Figure 3 is an exploded perspective view showing a dark room module of Figure 2, Figure 4 is an LED sensor of Figure 2 5 is a perspective view illustrating a light source provided in the board, and FIG. 5 is a perspective view illustrating a light receiving sensor of the controller of FIG. 2.

In the drawings, the same reference numerals are given to the same elements even when they are shown in different drawings. In the drawings, the same reference numerals as used in the accompanying drawings are used to designate the same or similar elements. And detailed description of the configuration will be omitted. Also, directional terms such as "top", "bottom", "front", "back", "front", "forward", "rear", etc. are used in connection with the orientation of the disclosed drawing (s). Since the elements of the embodiments of the present invention can be positioned in various orientations, the directional terminology is used for illustrative purposes, not limitation.

As shown in FIGS. 1 to 5, the active oxygen analyzer 1000 according to an exemplary embodiment of the present invention is provided on the lower cover housing 1100 and the upper portion of the lower cover housing to receive light and electromagnetic waves from the outside. In addition to the configuration, the light source and the light receiving sensor is located in the dark room module 1200, the control unit 1300 fixed to the upper portion of the dark room module, the lower cover housing is installed above the dark room module and The upper cover housing 1400 is configured to protect the control unit.

Here, the darkroom module 1200 is mounted on the inner upper surface of the lower cover housing, the tray lower cover 1210 in which the rack gear 1211 is formed, and the push cap 1220 installed on the inner rear of the lower tray cover. And a strip conveying tray 1230 having a hook to be detachably fixed to the push cap at the rear thereof, which is installed on the upper surface of the lower cover of the tray, and fixed to a lower portion of the strip conveying tray. In addition, the end of the leaf spring to be drawn out is fixed to the seat spring (1240) fixed to the lower tray cover, and is fixed to the lower portion of the strip feed tray, when the strip feed tray protrudes slowly to the side of the lower cover housing by the seat spring Oil damper (1250) is rotated in engagement with the rack gear formed on the lower cover of the tray, and the main board is controlled by the light source LED sensor board (1260) to supply power from the, and is fixed to the upper portion of the lower cover of the tray is configured to block the light and electromagnetic waves from the outside, provided in the lower portion of the light source (1262) and the control unit (1300) It characterized in that it has a tray upper cover (1270) formed with an LED sensor board mounting portion (1271) and the light receiving sensor seating portion (1272) on the top so that the light receiving sensor (1320) is located.

And the light receiving sensor installed in the control unit 1300 is a digital color sensor 1320, the digital color sensor 1320 is an eye blocking filter to block infrared rays disturbing the red band which is an effective spectrum distribution band of active oxygen. (IR-Blocking Filter) further.

Accordingly, when urine is buried in the strip 1290 and placed on the strip transfer tray 1230 for the examination of free radicals, the urine is pushed between the lower tray cover 1210 and the upper tray cover 1270 and the oil damper 1250. The strip feed tray 1230 is slowly moved to the rear while rotating in engagement with the rack gear 1211 and the hook provided at the rear of the strip feed tray 1230 to the push cap 1220 is fitted to be fixed.

Thereafter, when the light source 1262 installed on the substrate 1261 of the LED sensor board 1260 emits light in a state of being assembled to the LED sensor board installation part 1271 of the upper cover cover 1270, the strip 1290. The light is detected by the digital color sensor 1320, which is a light receiving sensor installed under the control unit 1300.

At this time, since the digital color sensor 1320 has an IR-Blocking Filter, the digital color sensor 1320 blocks infrared rays that disturb the red band, which is an effective spectrum distribution band of active oxygen, thereby enabling analysis and measurement of active oxygen. do.

In other words, by measuring the urine simply by measuring the active oxygen can not only save time and money, it is also easy for the general public to directly measure the active oxygen.

In addition, it is possible to analyze free radicals without using centrifuges and expensive chemical analyzers, and to analyze free radicals quickly and easily. As a result, it is possible not only to confirm the current patient or his or her health condition and the possibility of the disease, but also to prevent various diseases through periodic and continuous preliminary examination of the user's own disease, as well as various stresses and high activity. You will be able to efficiently manage your own health.

And, as shown in Figure 3, the strip transfer tray 1230 is characterized in that the strip pedestal 1280 that is detachably installed is further installed.

Therefore, since the strip 1290 is placed on the strip transfer tray 1230 using the strip pedestal 1280, the strip transfer tray 1230 is not contaminated, so that the measurement reliability is improved and the accuracy of the inspection is also excellent.

On the other hand, when the inspection of the strip 1280 is finished or the first pressing the front of the strip transfer tray 1230 for the inspection, the hook of the strip transfer tray 1230 is removed from the push cap 1220, after The strip conveying tray 1230 is pulled by the elastic force of the seat spring 1240, and at this time, an oil damper 1250 assembled at the lower portion of the strip conveying tray 1230 is provided with a rack gear (1210) provided in the lower tray cover 1210. 1211 and rotates to protrude toward the front of the lower cover housing 1100.

Thereafter, the urine-stained strip 1290 is placed on the strip support 1280 and placed on the strip feed tray 1230. When the strip feed tray 1230 is pushed in, it is inserted into the push cap 1220 and fixed. And urine test items will be analyzed.

On the other hand, as shown in Figure 1, the weight member 1500 is installed on the upper portion of the lower cover housing 1100, the active oxygen when pushing the strip transfer tray 1230 when using the active oxygen analyzer 1000 It can be installed to increase weight to prevent the analyzer from being pushed.

In addition, the RF board 1600 and the ANT board 1700 is preferably installed on the upper portion of the control unit 1300 to send and receive wireless communication and personal details data.

Therefore, the control unit 1300 can transmit the data at a short distance or long distance through the RF board 1600, the ANT board 1700, and the connection port 1330 by analyzing and converting the analysis value into a numerical value compared with the medical diagnostic data server. Done.

Hereinafter will be described an active oxygen analysis method through the urine test using the active oxygen analyzer of the present invention.

The active oxygen analysis method through the urine test using the active oxygen analyzer of the present invention, a strip transport tray (1230) with a strip support (1280) and a sample strip (1290) for analysis of active oxygen soaked with urine collected for active oxygen test Step (S1) and put it in the lower portion of the sample analysis darkroom module 1200, and when the sample strip 1290 is input to the sample analysis darkroom module (1200); RGB value by digital color sensor 1320 equipped with IR-Blocking Filter, which is a light-receiving sensor positioned after the color of the sample strip is perpendicular to the surface of the sample strip after being irradiated by the LED chip. (S2) and the RGB value of the sample strip read by the digital color sensor, which is the light receiving sensor of the sample inspection unit, by the control unit 1300 compared with the medical diagnostic data server and numerically analyzed And converting (S3) and displaying, through an output device such as an LCD, a printer, and the like through the process of precise comparison correction and confirmation by a medical diagnostic value by the control unit (S4).

Therefore, the urine-retained active oxygen analysis sample strip 1290 is placed on the strip transfer tray 1230 together with the strip support 1280 and placed in the lower portion of the sample analysis dark room module 1200, the light source 1262 After irradiation, the discoloration degree of the sample strip is extracted as an RGB value by the digital color sensor 1320 having an IR-Blocking Filter, which is a light receiving sensor located perpendicular to the surface of the sample strip. The RGB value of the sample strip read by the digital color sensor, which is a light receiving sensor of the inspection unit, is analyzed and converted into numerical values by comparing with the medical diagnostic data server in the control unit 1300, and then precisely corrected and verified by medical control values by the control unit. After the process of being displayed through the output device, such as LCD or printer.

Therefore, it is possible to test free radicals simply by urine test, so it is possible to quickly and easily test free radicals in hospitals, health institutions, homes, etc. And, due to the periodic and continuous pre-tests on the user's own disease, it is possible to prevent various diseases, and can effectively manage their own health due to various stresses or high activity.

Meanwhile, FIG. 6 illustrates another embodiment of the present invention, wherein the lower cover housing 2100 and the upper cover housing are configured to block light and electromagnetic waves from the outside, and the light source and the light receiving sensor are positioned. A strip conveying tray 2230 of the darkroom module and an upper cover housing 2400 installed on an upper portion of the lower cover housing to protect the darkroom module and the control unit therein, the upper cover housing 2400 of the upper cover housing 2400 In the upper portion, the display unit 2500 is further installed to be rotatable so that the converted data can be checked.

In addition, a lock lever 2510 is further installed on the display unit 2500 to be detachably attached to the upper cover housing 2400, and an operation display unit 2101 is further installed on one side of the upper cover housing 2400.

Therefore, it is easy to check the data analyzed in the active oxygen analyzer through the display unit 2500 directly in the field.

The embodiments of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention if they are apparent to those skilled in the art.

1100: lower cover housing 1200: darkroom module
1210: Lower Tray Cover 1220: Push Cap
1230: strip feed tray 1240: seat spring
1250: oil damper 1260: LED sensor board
1262: light source 1270: upper tray cover
1271: LED sensor board mounting portion 1272: light receiving sensor seat
1280: strip pedestal 1300: control unit
1320: Digital color sensor (light receiving sensor) 1400: Upper cover housing
1500: weight member 1600: RF board
1700: ANT board 2500: Display

Claims (6)

Lower cover housing 1100,
A dark room module 1200 installed at an upper portion of the lower cover housing and configured to block light and electromagnetic waves from the outside, wherein the light source and the light receiving sensor are positioned;
A control unit 1300 fixedly installed on an upper portion of the darkroom module,
An upper cover housing 1400 installed at an upper portion of the lower cover housing to protect a darkroom module and a control unit therein;
The light receiving sensor installed in the control unit is a digital color sensor 1320,
The digital color sensor is an active oxygen analyzer, characterized in that equipped with an IR-Blocking Filter (IR-Blocking Filter) to block the infrared rays disturbing the red band which is the effective spectrum distribution band of the active oxygen. The method of claim 1,
The dark room module 1200,
A tray lower cover 1210 mounted on an inner upper surface of the lower cover housing and having a rack gear 1211 formed therein;
A push cap 1220 installed at an inner rear side of the lower tray cover;
A strip conveying tray 1230 provided with a hook to be detachably fixed to the push cap at a rear side thereof while being mounted on the upper surface of the lower tray cover;
A seat spring 1240 fixed to the lower portion of the strip feed tray and having an end portion of the leaf spring drawn out to the lower tray cover;
An oil damper (1250) fixed to a lower portion of the strip conveying tray and engaged with a rack gear formed on the lower tray cover so as to protrude slowly when the strip conveying tray protrudes toward the side of the lower cover housing by a seat spring;
An LED sensor board 1260 configured to supply power from the controller 1300 which is a main board to the light source 1262;
The LED sensor board is installed on the upper portion of the lower cover of the tray to block light and electromagnetic waves from the outside, and to receive the light source 1262 and the light receiving sensor 1320 provided under the control unit 1300. Active oxygen analyzer, characterized in that it comprises a tray upper cover (1270) is formed with a portion (1271) and the light receiving sensor seat portion (1272). 3. The method of claim 2,
The active oxygen analyzer, characterized in that the strip transfer tray (1230) is further provided with a strip support 1280 detachably installed. 4. The method according to any one of claims 1 to 3,
The weight member 1500 installed on the upper portion of the lower cover housing 1100 and the RF board 1600 and the ANT board 1700 to transmit and receive wireless communication and detailed data on the upper portion of the control unit 1300. Active oxygen analyzer, characterized in that more installed. 5. The method of claim 4,
The upper portion of the upper cover housing, the active oxygen analyzer further comprises a display unit rotatably installed so as to be able to check the converted data from the control unit. The step of placing the sample strip 1290 for analysis of the active oxygen wet with urine collected for the test of active oxygen is placed on the strip transfer tray 1230 together with the strip support 1280 and put in the lower part of the sample analysis dark room module 1200. (S1) and,
When the sample strip 1290 is injected into the sample analysis darkroom module, the sample strip is irradiated by the SMD chip LED, which is a light source 1262 (light emitting module) illuminated through an incident angle of 60 °, and the discoloration degree of the sample strip is perpendicular to the sample strip surface. Extracting to RGB values by a digital color sensor 1320 having an IR-Blocking Filter, which is a light receiving sensor positioned at (S2),
Analyzing and converting the RGB values of the sample strips read by the digital color sensor, the light receiving sensor of the sample inspection unit, into a numerical value by comparing with the medical diagnostic data server in the control unit 1300 (S3);
The active oxygen analysis method through a urine test comprising the step (S4) displayed through the output device of the LCD or printer through a process of precise comparison correction, confirmation by the control unit medical diagnostic value.

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