CN112697704A - Color recognition module and in-vitro diagnosis equipment thereof - Google Patents

Abstract

The invention discloses a color identification module and an in-vitro diagnosis device thereof, wherein the color identification module comprises a light source LED component 101, a light processing component 102, a color sensor component 103, a clamping groove cover plate 104, a rear clamping groove 105, a front clamping groove 106 and a cotton swab head detection area 111; the in-vitro diagnosis equipment comprises a color identification module 10, an equipment upper shell module 02, an equipment lower shell module 03, a thermal printer 04, a display screen 05, a detection inlet 06, an acquisition control circuit board 11 and a system processing circuit board 12.

Description

Color recognition module and in-vitro diagnosis equipment thereof

Technical Field

The invention relates to the field of in-vitro diagnosis, in particular to a color identification module and in-vitro diagnosis equipment thereof.

Background

The special folic acid mediated staining solution for the epithelial tissue is a living cell staining agent, is used for special staining before pathological examination of the epithelial tissue, and can judge whether the epithelial tissue is diseased or not through the change of the color of the staining solution.

The existing manual color reading mode is influenced by a plurality of external factors, such as subjective judgment of different doctors on colors, ambient light and other factors, the judgment on the colors is influenced, the detection result lacks stability, consistency and standardization, the test result is difficult to trace, and the informatization management cannot be realized.

Disclosure of Invention

In view of the above problems, a color recognition module and a diagnosis apparatus thereof have been developed.

A color identification module comprises a light source LED assembly 101, a light processing assembly 102, a color sensor assembly 103, a card slot cover plate 104, a rear card slot 105, a front card slot 106 and a cotton swab head detection area 111.

In the color identification module, the light source LED assembly 101, the light processing assembly 102 and the color sensor assembly 103 are located inside the rear card slot 105.

In the color identification module, the card slot cover plate 104 is located on the upper portion of the front card slot 106, and the rear card slot 105 is connected with the front card slot 106.

In the color identification module, the light source LED assembly 101 is connected to the light processing assembly 102, the light processing assembly 102 is connected to the color sensor assembly 103, and the light source LED assembly 101 is connected to the color sensor assembly 103.

An in vitro diagnosis device 01 comprises the color recognition module 10, a device upper shell module 02, a device lower shell module 03, a thermal printer 04, a display screen 05, a detection inlet 06, an acquisition control circuit board 11 and a system processing circuit board 12.

In the in vitro diagnosis device, the thermal printer 04 is embedded in the device upper shell module 02, and the display screen 05 is embedded in the device upper shell module 02.

In the in vitro diagnosis device, the color identification module 10 is connected with the acquisition control circuit board 11, and the acquisition control circuit board 11 is connected with the system processing circuit board 12.

In the in vitro diagnostic device, the system processing circuit board 12 is connected with the thermal printer 04, and the system processing circuit board 12 is connected with the display screen 05.

In the extracorporeal diagnostic apparatus, the detection inlet 06 is formed by butting the upper casing module 02 and the lower casing module 03 of the apparatus.

In the extracorporeal diagnosis apparatus, the color sensor assembly 103 is connected to the acquisition control circuit board 11.

The in-vitro diagnostic device needs to seal light to prevent interference of external light on light emitted by the LED, parallel light and reflected light.

An in-vitro diagnostic device color identification method comprises the following steps:

firstly, putting a cotton swab to be detected into a detection channel, and focusing and paralleling white light rays emitted by an LED lamp by the in-vitro diagnostic equipment to enable the parallel light rays to uniformly irradiate the head of the cotton swab;

reflected light is reflected to the color sensor assembly, the color sensor assembly filters and collects the reflected light to obtain R, G, B values of light (namely R, G, B color values of the cotton swab head), and the color of the light can be judged by judging the proportion of red, green and blue components contained in the color of the light;

acquiring, converting, calculating and deducing the R, G, B value by the acquisition control circuit board 11 and the system processing circuit board 12 to obtain the color of the cotton swab head;

and fourthly, the system processing circuit board 12 displays the detection result and the related sample information by controlling the display screen 05, and prints the result by a thermal printer.

The in vitro diagnosis equipment of the invention can judge the color and the like by placing the head of the cotton swab in the detection area of the cotton swab head through the detection entrance 06.

Technical effects

Compared with the prior art, the technical scheme of the invention has the following advantages:

1. the white irradiation light is subjected to uniform white balance calibration, the purity of the white light is guaranteed, the problems of subjective difference of manual interpretation, different colors of ambient light and the like are solved, and the stability, consistency and standardization of detection results are guaranteed.

2. The storage and the tracing of the detection result are realized through equipment detection, and the information management is realized.

Drawings

FIG. 1: the invention discloses a color recognition module overall structure schematic diagram

FIG. 2: explosion diagram of color identification module of the present invention

FIG. 3: the invention relates to a three-dimensional schematic diagram of an in-vitro diagnostic device

FIG. 4: the internal structure schematic diagram of the external diagnostic equipment of the invention with the unfolded upper and lower shells

Description of the reference numerals

01-external diagnosis equipment, 02-equipment upper shell module, 03-equipment lower shell module, 04-thermal printer, 05-display screen, 06-detection inlet, 10-color identification module, 11-acquisition control circuit board, 12-system processing circuit board, 101-light source LED component, 102-light processing component, 103-color sensor component, 104-card slot cover plate, 105-back card slot, 106-front card slot and 111-cotton swab head detection area

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment relates to a color identification module 10, which comprises a light source LED component 101, a light processing component 102, a color sensor component 103, a card slot cover plate 104, a rear card slot 105, a front card slot 106 and a cotton swab head detection area 111.

Referring to fig. 1 and 2, in the module explosion schematic diagram of the color identification module 10, the light source LED assembly 101 is connected to the light processing assembly 102 and fixed by screws; the light processing assembly 102 is connected with the color sensor assembly 103 and fixed through screws; after the connection of the components is completed, the components are installed in the rear card slot module 105; the card slot cover 104 is mounted on the front card slot 106, and the terminals on the light source LED assembly 101 are electrically connected with the terminals on the color sensor assembly 103.

Referring to fig. 1, the central hole at the junction of the rear card slot 105 and the front card slot 106 is a swab head detection area 111.

The embodiment relates to an in vitro diagnostic device, and the specific structure is shown in fig. 3 and fig. 4, and the in vitro diagnostic device comprises a device upper shell module 02, a device lower shell module 03, a thermal printer 04, a display screen 05, a detection inlet 06, a color recognition module 10, an acquisition control circuit board 11, and a system processing circuit board 12.

Referring to fig. 4, the lower device housing module 03, including the color recognition module 10, the acquisition control circuit board 11, and the system processing circuit board 12, which are butted at the detection inlet 06, is mounted on the lower device housing module 03; the color recognition module 10 is electrically connected with the acquisition control circuit board 11 through a wire; the acquisition control circuit board 11 is electrically connected with the system processing circuit board 12 through wires; the system processing circuit board 12 is electrically connected with the thermal printer 04 through a wire; the system processing circuit board 12 is electrically connected with the display screen 05 through a wire.

The detection inlet 06 is formed by abutting the upper device case module 02 and the lower device case module 03.

In the extracorporeal diagnosis apparatus of the present invention, the color sensor module 103 is electrically connected to the terminal on the acquisition control circuit board 11 through a terminal.

The in vitro diagnostic device needs to seal light to prevent interference of external optics on LED emitted light, parallel light and reflected light.

In the color identification module or the in-vitro diagnostic apparatus, the screw is only one of the connection modes, and other connection modes can be replaced by the screw, such as a clamping structure, an embedding structure and the like.

An in-vitro diagnostic device color identification method comprises the following steps:

firstly, the in-vitro diagnostic equipment focuses and parallels white light rays emitted by an LED lamp to enable the parallel light rays to uniformly irradiate a cotton swab head;

reflected light is reflected to the color sensor assembly, the color sensor assembly filters and collects the reflected light to obtain R, G, B values of light (namely R, G, B color values of the cotton swab head), and the color of the light can be judged by judging the component proportion of three primary colors (red, green and blue) contained in the color of the light;

acquiring, converting, calculating and deducing the R, G, B value by the acquisition control circuit board 11 and the system processing circuit board 12 to obtain the color of the cotton swab head;

and fourthly, the system processing circuit board 12 displays the detection result and the related sample information by controlling the display screen 05, and prints the result by a thermal printer.

The in vitro diagnosis equipment can judge the color by placing the cotton swab head of the cotton swab into the illumination area through the detection inlet 06.

The cotton swab can be placed in a container such as a clamping shell or a transparent tube and then placed in the diagnostic equipment so as to avoid polluting the diagnostic equipment.

Although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes, modifications and equivalents may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. A color identification module, characterized by: the color identification module comprises a light source LED assembly 101, a light processing assembly 102, a color sensor assembly 103, a card slot cover plate 104, a rear card slot 105, a front card slot 106 and a cotton swab head detection area 111.

2. The color identification module of claim 1, wherein: the light source LED assembly, the light processing assembly and the color sensor assembly are positioned in the rear clamping groove.

3. A color recognition module according to claim 1 or 2, wherein: the clamping groove cover plate is positioned on the upper portion of the front clamping groove, and the rear clamping groove is connected with the front clamping groove.

4. The color identification module of claim 3, wherein: the LED light source assembly is connected with the light processing assembly, the light processing assembly is connected with the color sensor assembly, and the LED light source assembly is connected with the color sensor assembly.

5. An in vitro diagnostic apparatus comprising the color recognition module 10, the apparatus upper case module 02, the apparatus lower case module 03, the thermal printer 04, the display screen 05, the detection inlet 06, the acquisition control circuit board 11, and the system processing circuit board 12 of any one of claims 1 to 4.

6. The in vitro diagnostic apparatus of claim 5, wherein: the thermal printer is embedded into the equipment upper shell module, and the display screen is embedded into the equipment upper shell module.

7. The in vitro diagnostic apparatus of claim 5, wherein: the color recognition module is connected with the acquisition control circuit board, the acquisition control circuit board is connected with the system processing circuit board, and the color sensor assembly is connected with the acquisition control circuit board.

8. The in vitro diagnostic apparatus of claims 5 to 7, wherein: the system processing circuit board is connected with the thermal printer and the display screen.

9. The in vitro diagnostic apparatus of claim 8, wherein: the detection inlet is formed by butting the upper equipment shell module and the lower equipment shell module.

10. An in-vitro diagnostic device color identification method comprises the following steps:

firstly, placing a cotton swab to be detected into a detection channel;

secondly, the in-vitro diagnostic equipment focuses and parallels the white light emitted by the LED lamp to enable the parallel light to uniformly irradiate the cotton swab head;

reflected light is reflected to the color sensor assembly, the color sensor assembly filters and collects the reflected light to obtain R, G, B values of light (namely R, G, B color values of the cotton swab head), and the color of the light can be judged by judging the proportion of red, green and blue three-primary-color components contained in the color of the light;

the collection control circuit board and the system processing circuit board acquire, convert, calculate and deduce the R, G, B value to obtain the color of the cotton swab head;

and the system processing circuit board displays the detection result and related sample information through the control display screen, and prints the result through a thermal printer.

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