KR101077665B1 - Apparatus for decoding color of strip stained with solution - Google Patents

Abstract

The present invention relates to an illumination reading device for testing test paper which enables illumination of the same color through one light source on the rim of test paper for testing urine or blood so that a constant color reaction appears without color distortion.
To this end, in the apparatus for measuring a color reaction by applying a test solution to a plurality of bundles adhered to the test paper for inspection and illuminating the light source on the bundles, a mounting hole is formed on one side of the lower side, and a light exit hole on one side of the upper side. A case formed in the longitudinal direction; A light guide member formed of a plurality of reflective patterns spaced apart from each other at a bottom thereof and mounted inside the case; An LED light source inserted into the mounting hole so as to irradiate light into the light guide and installed on one side of the light guide; A holder formed at a position directly above the reflective pattern so as to be spaced apart from each other, and installed at an upper end of the case so that a test paper is placed on an upper surface thereof; And a plurality of color sensors provided on one side of the lower part of the holder so that the light reflected from the reflective pattern on the test paper is reflected back to read the color of the light.
According to the above configuration, since only one LED light source can be used to illuminate the test strips under the same conditions and colors, it is possible to realize a constant color reaction without distorting the color to more accurately and reliably read the test solution. There is.

Description

Illumination reading device for inspection test paper {APPARATUS FOR DECODING COLOR OF STRIP STAINED WITH SOLUTION}

The present invention relates to an illumination reading device, and more particularly, to the illumination test reading for the test test paper to enable the illumination of the same color through a single light source on the rim of the urine or blood test paper so that a constant color reaction appears without color distortion. Relates to a device.

In general, urinalysis is one of the basic test items in clinical practice. In the past, visual examination was performed by an experienced nurse, but recently, an automated urine analysis system was used to increase the amount of analysis and to shorten the analysis time. I am measuring it.

However, the conventional urine analysis system has a problem in that a difference occurs in the test result that appears because each device individually illuminates the cell of the urine strip (URINE Strip).

In other words, the urine analysis system detects the color reaction of urine test strips (strips) and detects various non-linear characteristics, i.e., inputs and outputs of distorted colors by the mechanism, hardware, and surrounding environment of the optical module. It will be carried.

In order to correct the data obtained by the urine analysis system, a color coordinate conversion technique is used. In order to maintain higher accuracy and reproducibility, color distortion is corrected through the introduction of equipment characterization.

However, while the reliability and accuracy of the test is improved according to the above-described equipment characterization, the high cost of the urine test device can not be escaped, and there is a problem in commercializing the test device.

Meanwhile, FIGS. 1 and 2 illustrate a reading device for inspecting urine using a light source in a conventional urine analysis system. In brief, a plurality of LED lamps 11 are disposed on an upper surface of a printed circuit board (PCB) 10. ) And a holder 20 having a plurality of light irradiation holes 21 formed thereon so that the LED lamp 11 can be inserted in the upper portion of the PCB 10, and each of the holders 21 is provided on one side thereof. The detector 30 is installed so that the light irradiated from the LED lamp 11 is reflected on the test paper and inspected.

That is, by installing a plurality of LED lamps on the PCB in the same number as the number of cells formed on the test paper, each LED lamp is illuminated on each tank to examine the color of urine buried in each tank.

However, the above-described prior art has a limitation in reducing the error of color reaction due to the difference in the color characteristics of each LED lamp and the decrease in the output value according to the change of the LED lamp over time. Accordingly, there is a need for a lighting device for classifying a new urine color for accurate examination according to urine color (color).

Domestic Patent Publication No. 10-0251999 Domestic Registration Utility Model Publication No. 20-0313111 Domestic Registration Utility Model Publication No. 20-0384907 Domestic Registration Utility Model Publication No. 20-0242867

The present invention has been made to solve the conventional problems as described above, to enable the illumination of the same color through a single light source in the cell (Cell) of the urine or blood test strips (Sell) constant color without distortion of color There is provided an illumination reading device for inspection test paper which allows a reaction to occur.

In the configuration of the present invention for achieving the above object, in the apparatus for measuring the color reaction by applying a test solution to a plurality of the needles attached to the test paper for inspection and illuminating the light source on the needles, mounted on one side of the lower A case in which a hole is formed and a light exit hole is formed in a length direction on an upper side thereof; A light guide member formed of a plurality of reflective patterns spaced apart from each other at a bottom thereof and mounted inside the case; An LED light source inserted into the mounting hole so as to irradiate light into the light guide and installed on one side of the light guide; A holder formed at a position directly above the reflective pattern so as to be spaced apart from each other, and installed at an upper end of the case so that a test paper is placed on an upper surface thereof; And a plurality of color sensors provided on one side of the lower part of the holder so that the light reflected from the reflective pattern on the test paper is reflected back to read the color of the light.

Here, the reflective pattern forms irregularities on the bottom surface of the light guide.

In addition, the reflective pattern is formed by printing any one of white paint or silver powder on the bottom surface of the light guide.

In addition, a reflector is formed at the end of the light guide to reflect light emitted from the LED light source.

In this case, the reflector is formed by printing any one of the white paint or silver powder paint.

The present invention through the above problem solving means, it is possible to use a single LED light source to illuminate all the sticks attached to the test paper under the same conditions and colors, eliminating the color difference for each light source when using a plurality of light sources In addition, it is possible to realize a constant coloration and color reaction without color distortion, which has the effect of reading the test solution more accurately and reliably.

1 is a front cross-sectional view of a lighting reading apparatus according to the prior art,
2 is a side cross-sectional view of a lighting reading apparatus according to the prior art,
3 is a front sectional view of an illumination reading device according to the present invention;
4 is a side cross-sectional view of an illumination reading device according to the present invention.
5A and 5B are perspective views of light guide embodiments in which irregularities are formed in a reflective pattern according to the present invention;
6A and 6B are perspective views of light guide embodiments in which a special paint is printed on the reflective pattern according to the present invention;

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

3 to 6B illustrate an illumination reading device for inspection test paper according to the present invention, which includes a case 100, a light guide 200, an LED light source 140, a holder 300, and a color sensor 330. It is configured to include).

Looking in detail with reference to Figures 3 and 4, first, the case 100 forms a mounting hole 110 in the lower one side, and forms a light output hole 120 in the longitudinal direction in the upper center. In addition, a transparent light guide 200 is inserted into the case 100, and a plurality of reflective patterns 210 are spaced at equal intervals on a bottom surface of the light guide 200.

Here, the shape of the light guide 200 is preferably formed in a long rod-shaped rectangular parallelepiped shape as shown in FIGS. 5A and 6A, but in some cases, the light guide body 200 is predetermined along the longitudinal direction of both sides of the bottom surface as illustrated in FIGS. 5B and 6B. It may be formed to be tapered by the length.

In addition, as an example of the reflective pattern 210, as shown in FIGS. 5A and 5B, a plurality of irregularities having triangular cross sections are formed on the bottom surface of the light guide 200 so that light reflected by the irregularities may be reflected upward. Configure it to be possible.

In addition, as another embodiment of the reflective pattern 210, as shown in Figure 6a, 6b by forming any one of the white paint or silver paint on the bottom surface of the light guide 200, the light reflected by the white paint or silver powder paint It is configured to be reflected toward the top.

At this time, the reflective pattern 210 is formed to be spaced apart at regular equal intervals as described above, in the present invention can be formed in a plurality of intervals of 7.5 ± 0.5mm. However, the above-described separation distance is merely one example for carrying out the present invention, and can be variously changed.

In addition, light incident on the light guide 200 from the LED light source 140 at the end of the light guide 200 positioned on the opposite side of the light output hole 120 among the both ends of the light guide 200 is again led to the LED light source 140. Reflector 220 is formed to reflect in the () direction. The reflection unit 220 is appropriately formed by printing using either white paint or silver powder paint.

In addition, the PCB 130 is fixedly installed on the inner surface of the mounting hole 110 of the case 100 as shown in FIGS. 3 and 4, and the connector 130 is connected and installed to the PCB 130. 130) One LED light source 140 is fixedly installed on the PCB 130 so that one side of the light guide 200 located on the upper surface may irradiate light inside the light guide 200. Here, as the LED light source 140, it is suitable to use a color LED such as white-LED or RGB-LED.

In addition, a holder 300 is installed on an upper end of the case 100, and each of the reflective patterns 210 may be uniformly emitted from the light collected through the reflective pattern 210 toward the holder 300. The plurality of light irradiation holes 310 are formed to be spaced apart at equal intervals in the upper position.

In addition, the upper surface of the holder 300 is formed to be inclined at a predetermined angle, the upper surface of the inclined holder 300 is provided with a glass substrate 320 so that the test paper 340 can be placed, the lower side of the holder 300 A plurality of color sensors 330 are provided to reflect the light reflected from the reflective pattern 210 to the fin 345 of the test paper 340 to read the color of the fin 345. Here, the color sensor 330 is to read that the light reflected through each reflective pattern 210 is reflected back to the test paper 340 in the light 345, thereby, the reflection pattern 210 and the test paper ( 340 is installed in the same number as the number of fins (345).

Referring to the operation and effect of the present invention configured as described in detail as follows.

In order to test urine and blood using the test test paper light reading device of the present invention, first, the test solution to be tested is buried in a cell attached to the test test paper 340, and then mounted on the upper surface of the holder 300 The glass substrate 320 is to be raised, wherein the position of each fin 345 is raised in accordance with the position of the upper portion of the light irradiation hole 310 formed in the holder 300.

Thereafter, when power is applied to the LED light source 140 to irradiate the light emitted from the LED light source 140 through the side of the light guide 200, the light is incident inside the light guide 200. Light incident on the light guide 200 within an angle is totally reflected in the light guide 200 and is irradiated toward the opposite direction of the LED light source 140.

Then, the light reflected and irradiated in the light guide 200 is reflected back to the reflector 220 printed at the end of the light guide 200 is reflected and irradiated toward the LED light source 140 again.

At this time, in the light reflection process in the light guide 200 as described above, some of the light is focused on the reflective pattern 210 formed on the bottom of the light guide 200 to change the direction of the light to irradiate the light toward the top. Will be. That is, when the unevenness is formed by the reflective pattern 210, the uneven portion acts as a reflector so that the direction of light can be irradiated upward. By reflecting the light through it will be able to irradiate the direction of the light upwards.

As such, the light irradiated upwardly through the reflective pattern 210 is emitted to the outside of the light guide body 200 through the light emission hole 120 formed on the upper surface of the case 100, and directly above each of the reflective patterns 210. It passes through the light irradiation hole 310 of the holder 300 is located on the glass substrate 320 is irradiated to the 올려 345 of the test paper 340.

Then, the light irradiated to the beam 345 is reflected back to the respective color sensor 330, the color sensor 330 by reading the color of the light reflected from each beam 345, It is possible to determine the reaction of the color development or discoloration of the test solution buried in 쎌 (345).

As such, the illumination reading device for inspection test paper of the present invention uses only one LED light source 140 to illuminate each wafer 345, so that all wafers 345 adhered to the test paper 340 have the same conditions and colors. Can be illuminated. Therefore, it is possible to eliminate the color difference for each light source that appears when using a plurality of light sources, to express a constant color and color reaction without distortion of the color, thereby enabling a more accurate and sure reading of the test solution.

On the other hand, the present invention has been described in detail only with respect to the specific examples described above it will be apparent to those skilled in the art that various modifications and variations are possible within the technical scope of the present invention, it is natural that such variations and modifications belong to the appended claims. .

100: case 110: mounting hole
120: light exit hole 130: PCB
140: LED light source 150: connector
200: light guide 210: reflection pattern
220: reflector 300: holder
310: light irradiation hole 320: glass substrate
330: color sensor 340: test paper
345 cell

Claims (5)

In the apparatus for measuring a color reaction by applying a test solution to a plurality of the needles attached to the test paper and illuminating the light source on the needles,
A case 100 in which a mounting hole 110 is formed at one side of the lower side, and a light emission hole 120 is formed in a length direction at one side of the upper side;
A plurality of reflective patterns 210 spaced apart from each other at a bottom thereof, and a light guide 200 of a transparent material mounted inside the case 100;
A single LED light source 140 inserted into the mounting hole 110 so as to irradiate light into the light guide 200 and installed at one side of the light guide 200;
A holder 300 formed on the upper surface of the case 100 so that a plurality of light irradiation holes 310 are spaced apart from each other at a position directly above the reflective pattern 210 and a test paper 340 is placed on an upper surface thereof;
The light reflected from the reflective pattern 210 to the test paper 340 is re-reflected to include a plurality of color sensors 330 provided on one side of the lower portion of the holder 300 to read the color of the fin 345 An illumination reading device for inspection test paper. According to claim 1, wherein the reflective pattern 210 is an illumination reading device for inspection test paper, characterized in that the concave-convex formed on the bottom surface of the light guide (200). The apparatus of claim 1, wherein the reflective pattern (210) is formed by printing any one of white paint or silver powder on the bottom surface of the light guide (200). According to claim 1, wherein the light guide (200) end of the light reading device for inspection test paper, characterized in that the reflector 220 is formed to reflect the light emitted from the LED light source (140). The illumination reading device for inspection test paper according to claim 4, wherein the reflector (220) forms one of white paint or silver paint.

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