KR101388834B1 - Specimen analysis apparatus - Google Patents

Abstract

Specimen analysis device according to an embodiment of the present invention comprises an image pickup unit for photographing the identification code provided in the specimen analysis kit and the specimen reaction result of the reaction is injected into the specimen analysis kit; And a main body unit on which the image capturing unit is mounted, wherein the image capturing unit may photograph the identification code at a time difference with respect to the specimen reaction result.

Description

Specimen analysis apparatus

The present invention relates to a sample analyzing apparatus, and more particularly, to a sample analyzing apparatus to implement an accurate analysis result for a sample to be analyzed.

Recently, with increasing interest in health, various techniques for analyzing the health of the body using biological samples have been introduced.

In particular, the diagnostic kit can be used to easily check health by analyzing trace biological samples.

In order to analyze the final results of these diagnostic kits, an antigen-antibody reaction or an enzyme reaction generated by a biological sample should be displayed in a diagnostic kit. .

In order to derive an accurate analysis result for a biological sample, code information including valid information for each diagnostic kit must be recognized. Conventionally, code information is transmitted to a barcode reader or a RFID We mainly used the method of recognizing code information using a unit.

However, when using a conventional barcode reader or RFID unit, additional equipment for reading a code must be additionally provided in addition to photographing a diagnostic kit, thereby making it difficult to miniaturize an analysis device and incurring additional costs. there is a problem.

In addition, since a separate operation for code reading is required, the analysis time is delayed and the operation is cumbersome.

Therefore, in analyzing the diagnostic kit, there is a need for a study to find an improvement method for photographing a code reading and a sample reaction result for accurate analysis result derivation.

An object of the present invention is to provide a sample analysis device that maximizes the user's convenience by implementing a miniaturization and simplicity and at the same time selectable mode by deriving the measurement of the identification code and the sample reaction results using a single component will be.

Specimen analysis device according to an embodiment of the present invention comprises an image pickup unit for photographing the identification code provided in the specimen analysis kit and the specimen reaction result of the reaction is injected into the specimen analysis kit; And a main body unit on which the image capturing unit is mounted, wherein the image capturing unit may photograph the identification code at a time difference with respect to the specimen reaction result.

The image capturing unit of the specimen analyzing apparatus according to an embodiment of the present invention may photograph the identification code and the specimen reaction result according to a change in position caused by the movement of the specimen analysis kit.

The image capturing unit of the sample analyzing apparatus according to an embodiment of the present invention may sequentially photograph the identification code and the sample reaction result with a time difference.

The image capturing unit of the specimen analyzing apparatus according to an embodiment of the present invention may determine whether to photograph according to the position of the specimen analysis kit.

Specimen analysis device according to an embodiment of the present invention may further include a sensor for providing a signal for whether or not the image taking unit photographed according to the position of the specimen analysis kit.

The body portion of the specimen analysis device according to an embodiment of the present invention has an insertion portion for inserting the specimen analysis kit is inserted, the detection sensor may be mounted on the bottom surface of the insertion portion.

The detection sensor of the specimen analysis device according to an embodiment of the present invention may react by contact with one end of the specimen analysis kit.

The detection sensor of the specimen analysis device according to an embodiment of the present invention includes a first detection sensor and a second detection sensor for providing a respective signal to the image pickup unit to photograph the identification code and the sample response results, respectively; Can be.

One end of the specimen analysis kit of the specimen analysis device according to an embodiment of the present invention is sequentially contacted with the first sensor and the second sensor and the identification code and the sample reaction by the image capture unit Imaging of the results can be implemented.

The main body portion of the specimen analysis device according to an embodiment of the present invention has an insertion portion for inserting and mounting the specimen analysis kit, the image taking portion may be mounted on the upper side of the insertion portion.

The image capturing unit of the specimen analysis device according to an embodiment of the present invention may photograph the identification code of the specimen analysis kit in which the specimen is not injected.

Specimen analysis device according to an embodiment of the present invention is a signal for the injection of the specimen of the sample analysis kit and whether the sample is taken in the sample analysis kit in which the sample is not injected It may further include a sensing sensor to provide.

The detection sensor of the specimen analysis device according to an embodiment of the present invention may react by contact with one end of the specimen analysis kit.

The detection sensor of the specimen analysis device according to an embodiment of the present invention comprises a first detection sensor for providing a photographing signal for the identification code of the image pickup unit and a second detection sensor for providing a signal for injection of the sample It may include.

The image capturing unit of the sample analyzing apparatus according to an embodiment of the present invention may photograph a sample reaction result by the sample when the injection of the sample by the signal by the second detection sensor is completed.

The photographing of the specimen reaction result of the image capturing unit of the specimen analyzing apparatus according to an embodiment of the present invention may be repeatedly implemented at predetermined time intervals.

The specimen analyzing apparatus according to an embodiment of the present invention reads out the identification code image and the sample reaction result image photographed by the image capturing unit, and processes the read result of the sample reaction result using the read result of the identification code. The control unit may further include.

Specimen analysis device according to an embodiment of the present invention may further include a data storage unit for storing data corresponding to the identification code to process the read result of the sample reaction result.

The specimen analyzing apparatus according to an embodiment of the present invention may further include a display unit displaying a reading result of the specimen reaction result processed by the controller.

The sample analyzing apparatus according to the present invention can realize miniaturization and simplicity by deriving the measurement of the identification code and the result of the sample reaction using a single component.

In addition, by being implemented in a selectable mode can be implemented in a desired mode according to the user's use environment, it is possible to maximize the user's convenience.

Further, since the kit for analyzing a sample can be stably fixed to the main body for analysis, accurate sample analysis can be realized.

1 is a schematic perspective view showing a specimen analysis device according to an embodiment of the present invention.
Figure 2 is a schematic cutaway perspective view showing a sample analysis device according to an embodiment of the present invention.
Figure 3 is a schematic perspective view showing a sample analysis kit that is an analysis target of the sample analysis device according to an embodiment of the present invention.
Figure 4 is a schematic exploded perspective view showing a sample analysis kit as an analysis target of the sample analysis device according to an embodiment of the present invention.
5 to 8 is a schematic diagram showing the operation of the specimen analysis device according to an embodiment of the present invention.
9 to 13 is a schematic diagram showing a modification of the operation of the specimen analysis device according to an embodiment of the present invention.

Hereinafter, with reference to the drawings will be described in detail a specific embodiment of the present invention. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

1 is a schematic perspective view showing a sample analysis device according to an embodiment of the present invention, Figure 2 is a schematic cutaway perspective view showing a sample analysis device according to an embodiment of the present invention.

In addition, Figure 3 is a schematic perspective view showing a sample analysis kit that is an analysis target of the sample analysis device according to an embodiment of the present invention, Figure 4 is an analysis target of the sample analysis device according to an embodiment of the present invention It is a schematic exploded perspective view showing the sample analysis kit.

1 to 4, the specimen analyzing apparatus 1 according to an embodiment of the present invention includes an image capturing unit 200 and an image capturing unit 200 for capturing a specimen analyzing kit 100. It may include a main body 300 to be mounted.

The main body 300 may provide an appearance of the sample analyzing apparatus 1 according to an embodiment of the present invention, the sample analysis kit 100, the image capturing unit 200, and the controller 320 to be described later. And a predetermined internal space in which the data storage unit 330 is mounted.

Meanwhile, the image capturing unit 200 may be disposed above the insertion unit 310 of the main body unit 300, that is, the insertion unit 310 for inserting and mounting the specimen analysis kit 100. It may be a kind of camera for photographing the identification code 110 and the specimen reaction result 122 provided in the specimen analysis kit 100.

Here, the image capturing unit 200 can photograph the identification code 110 and the sample reaction result 122 at a time difference.

That is, the image capturing unit 200 may photograph the identification code 110 and the specimen reaction result 122 sequentially by moving the specimen analyzing kit 100, and analyzes the specimen based on the photographed image. You can get results.

Here, the aforementioned sample reaction result 122 means that the reaction region 124 of the reaction pad 120 in which the sample injected into the sample analysis kit 100 is provided inside the sample analysis kit 100. It may mean the result of moving to the reaction.

That is, when a sample collected from blood or the like is injected into the sample injection unit 112 of the sample analysis kit 100, the sample moves to the reaction region 124 of the reaction pad 120 after a predetermined time elapses. The reaction of the reaction zone 124 may be defined as the specimen reaction result 122.

In other words, when a sample collected from blood or the like moves to the reaction region 124 by chromatography, the reaction region 124 changes due to the difference in the moving speed according to the concentration of the analyte included in the sample. In this case, the changed color of the reaction region 124 may be the sample reaction result 122.

On the other hand, the sample reaction result 122 may be implemented in a kind of at least one or more band shape, it is possible to analyze the health state of the sample subject collected by analyzing the band.

Therefore, the reaction zone 124 of the reaction pad 120 needs to expose the reaction zone to the outside for identification by the subject. For this purpose, the sample analysis kit 100 may include a display unit 114. Can be.

However, the sample reaction result exposed through the display unit 114 may perform an accurate analysis on the health state of the subject using the sample analyzing apparatus 1 according to an embodiment of the present invention, which is an image photographing unit. It may be implemented by (200).

Meanwhile, the identification code 110 photographed by the image capturing unit 200 may refer to information including a separate code value necessary for obtaining valid information on the specimen reaction result 122.

For example, the identification code 110 may be manufacturing lot information (Manufacturing lot information) of the sample analysis kit 1 according to the present invention.

The production lot information of this sample analysis kit 1 can be used to calibrate the result of reading the sample reaction result.

As another example, the identification code 110 may be an expiration date of the sample analysis kit 1. Identification code 110 including the effective date can be used to determine whether to use the sample analysis kit (1).

As a result, the image capturing unit 200 sequentially photographs the identification code 110 and the specimen reaction result 122 with a time difference, and the photographed image is controlled by the controller 320 and the identification code image and the specimen reaction result image. The read result is displayed on the display unit 340.

Meanwhile, whether the image capturing unit 200 is photographed may be implemented by a sensing sensor 350 formed in the insertion unit 310 of the main body unit 300, and a description thereof will be made with reference to FIGS. 5 to 8. It will be described later.

In addition, the specimen analysis kit 100 is inserted through the insertion unit 310 of the main body 300, and is mounted in the insertion position fixing part 116 and the shank copper prevention part ( 118) and the insertion position fixing correspondence part 316 and the shank movement preventing part 318 formed in the insertion part 310, which will be described later with reference to FIGS. do.

On the other hand, the specimen analysis device 1 according to an embodiment of the present invention can be operated in two modes.

Specifically, the first mode is a mode for inserting and analyzing the sample analysis kit 100 in which the specimen reaction result 122 is displayed in the insertion unit 310 of the main body 300, and in the case of the second mode. Is a mode in which a sample is not injected and the sample analysis kit 100 is inserted into the main body 300 and then injected into the sample to analyze the sample.

Therefore, the sample analyzing apparatus 1 according to the present invention can be implemented in a desired mode according to the user's use environment by implementing the selectable mode, thereby maximizing user convenience.

Here, a specific operation sequence for the first mode will be described later with reference to FIGS. 5 to 8, and a specific operation sequence for the second mode will be described below with reference to FIGS. 9 to 13.

5 to 8 is a schematic diagram showing the operation of the specimen analysis device according to an embodiment of the present invention.

First, FIG. 5 to FIG. 8 are an operation process corresponding to the first mode of the sample analyzing apparatus 1 according to the present invention. After the sample is injected through the sample injection unit 112, the reaction region of the reaction pad 120 is shown. It may be a mode for analyzing the sample analysis kit 100 in which the sample reaction result 122 is displayed at 124.

Referring to FIG. 5, after injecting a sample such as blood into the sample analysis kit 100, the sample moves to the reaction region 124 of the reaction pad 120 by chromatography, and the reaction region 124 of the reaction region 124. The resulting specimen reaction result 122 is obtained.

Meanwhile, the specimen analysis kit 100 in which the specimen reaction result 122 is displayed is sequentially photographed with an identification code 110 and the specimen reaction result 122 at a time difference to obtain an analysis result based on the captured image. It is inserted into the body portion 300 through the insertion portion 310 of the body portion 300.

Referring to FIG. 6, when the sample analysis kit 100 is inserted into the insertion unit 310 of the main body 300, the image capturing unit 200 is operated at any moment to form the sample analysis kit 100. The identification code 110 is taken.

In other words, the image capturing unit 200 may photograph the identification code 110 according to a change in position due to the movement of the specimen analyzing kit 100, and finally, the position of the specimen analyzing kit 100. Depending on whether the shooting can be determined.

This may be implemented by a sensor 350 that provides a signal for whether or not the image capturing unit 200 is photographed according to the position of the specimen analysis kit 100, the sensor 350 is the insertion unit 310 It can be mounted on the bottom surface of the).

The detection sensor 350 may react by contacting one end of the specimen analysis kit 100, and may include a first detection sensor 352 and a second detection sensor 354.

That is, the first detection sensor 352 and the second detection sensor 354 is one end of the sample analysis kit 100 in the process of inserting the sample analysis kit 100 into the insertion unit 310 It can be operated sequentially by the contact of.

In other words, the identification code 110 formed in the sample analysis kit 100 is located on the lower side of the image capturing unit 200 at the moment when one end of the sample analysis kit 100 reaches the first detection sensor 352. The image capturing unit 200 captures the identification code 110 by the signal of the first detection sensor 352.

Here, the image photographing the identification code 110 may be read by the controller 320 and used as data for deriving an accurate analysis result of the specimen.

Meanwhile, in FIG. 6, the photographing area of the image capturing unit 200 is shown to be somewhat smaller than the area of the identification code 110. However, this is only an approximate illustration. It is obvious that the entire region of 110 may be included.

Referring to FIG. 7, when one end of the sample analysis kit 100 reaches the first detection sensor 352 and continuously inserts the sample analysis kit 100, the body 300 is formed. Insertion position fixing portion 316 is pushed slightly by the appearance of the sample analysis kit 100.

That is, the insertion position fixing portion 316 may protrude from both sides of the insertion portion 310 of the body portion 300 and may have elasticity, and in the process of inserting the specimen analysis kit 100, The insertion position fixing part 116 embedded in both sides of the specimen analysis kit 100 is retracted by elasticity until it reaches a position corresponding to the insertion position fixing response part 316.

Referring to FIG. 8, when one end of the sample analysis kit 100 reaches the boundary of the insertion unit 310 of the main body 300, the instant image capturing unit 200 is operated once again.

In other words, the second detection sensor 354 for detecting a position is mounted on the space where the sample analysis kit 100 is inserted, that is, the bottom surface of the boundary of the insertion part 310, and the second detection sensor 354. ) The display unit 114 formed in the sample analysis kit 100 at the moment when one side end of the sample analysis kit 100 is reached is positioned on the lower side of the image capture unit 200, the second detection sensor ( In response to the signal 354, the image capturing unit 200 captures the display unit 114.

Here, the insertion position fixing portion 316 may be formed to correspond to the insertion position fixing portion 116 formed in the specimen analysis kit 100, the insertion position fixing portion 316 by the restoring force By inserting into the insertion position fixing part 116, the sample analysis kit 100 may be stably fixed to the insertion part 310 of the main body part 300.

On the other hand, the sample analysis kit 100 can be more stably fixed to the insertion portion 310 of the main body portion 300 by the shank movement prevention portion 118, which is formed on the boundary of the space to be inserted The movement preventing part 318 is implemented by being inserted into the shank movement preventing part 118.

That is, the shandong movement preventing portion 118 may be formed to correspond to the shandong movement preventing portion 318, the specimen by the shandong movement preventing portion 318 inserted into the shandong movement preventing portion 118. Analysis kit 100 may be blocked up and down movement.

Therefore, the insertion position fixing portion 316 and the shank movement preventing portion 318 formed at the insertion portion 310 of the main body 300 are inserted into the insertion position fixing portion 116 and the shank movement preventing portion 118. By inserting each, the sample analysis kit 100 can be stably fixed in the main body 300.

Therefore, the sample analysis kit 100 may implement accurate sample analysis by blocking the movement of the sample lifting in the main body 300 in advance.

On the other hand, after the sample reaction result 122 of the reaction region 124 exposed to the display unit 114 by the image capturing unit 200 is photographed, the controller 320 is a result of the identification code image and the sample reaction previously photographed The image may be read and the reading result of the identification code may be used to process the reading result of the specimen reaction result.

Here, the control unit 320 can obtain valid information for the specimen analysis by reading the information corresponding to the identification code 110 read from the data storage unit 330 storing the information corresponding to the identification code 110. have.

That is, the data storage unit 330 may store information on the identification code 110 of the plurality of sample analysis kit 100, it can use RFID for this.

Specifically, when the identification code 110 is the production lot information of the sample analysis kit 100, the control unit 320 uses the production lot information read from the identification code 110 to read the result of the sample reaction result 122. Calibration may be performed, and the processed result may be displayed on the display unit 340.

On the other hand, if the identification code 110 is the expiration date (expire date) of the sample analysis kit 100, the control unit 320 outputs an error message when the expiration date has passed according to the reading result of the identification code 110 can do.

In addition, when the identification code 110 indicates the type of the sample to be analyzed in the sample analysis kit 100, the controller 320 determines that the type of the sample to be analyzed is determined according to the reading result of the photographed identification code 110. If it does not correspond to the type of sample to be analyzed, an error message indicating that the analysis is impossible may be output to the display 340.

In summary, the specimen analyzing apparatus 1 according to an embodiment of the present invention may include an image capturing unit 200 for accurate analysis of a specimen, and the image capturing unit 200 may include the specimen. The analysis kit 100 may sequentially photograph the identification code 110 and the specimen reaction result 122 according to a change in position due to movement in the insertion portion 310 of the main body 300.

In other words, the image capturing unit 200 may determine whether the image is taken according to the position of the specimen analysis kit 100, and specifically, by signals of the first sensor 352 and the second sensor 354. The identification code 110 and the specimen reaction result 122 may be photographed sequentially with a time difference.

In this case, the controller 320 may read the photographed identification code image and the sample reaction result image and process the read result of the sample reaction result 122 using the read result of the identification code 110. The result may be output through the display unit 340.

Therefore, the sample analyzing apparatus 1 according to an embodiment of the present invention can implement accurate analysis of the sample through a single image capturing unit 200, thereby maximizing miniaturization and simplicity.

9 to 13 is a schematic diagram showing a modification of the operation of the specimen analysis device according to an embodiment of the present invention.

First, FIG. 9 to FIG. 13 are operation processes corresponding to the second mode of the sample analyzing apparatus 1 according to the present invention, and the sample analyzing kit 100 into which the sample is not injected is inserted into the main body 300. After mounting, it may be a mode of injecting and analyzing a sample.

Referring to FIG. 9, the sample analysis kit 100 into which the sample is not injected is inserted into the main body 300 through the insertion unit 310.

Referring to FIG. 10, the sample analysis kit 100 into which a sample is not injected may contact the first detection sensor 352 in the process of being inserted, and take an image by the signal of the first detection sensor 352. The unit 200 photographs the identification code 110.

Referring to FIG. 11, the sample analysis kit 100 into which the sample is not injected is continuously inserted after one end reaches the first detection sensor 352.

12A and 12B, when one end of the sample analysis kit 100 into which the sample is not injected reaches the boundary of the insertion unit 310 of the main body 300, the second detection sensor 354. May provide a signal for the injection of a sample.

That is, the injection of the sample through the sample injector 400 proceeds after the sample analysis kit 100 is stably fixed to the insertion unit 310 of the main body unit 300, and the provision of the signal is performed in the first step. 2 may be implemented by the sensor 354.

In this case, a message informing the injection of the sample is displayed on the display 340, and the user injects the sample to be analyzed into the sample analysis kit 100.

Referring to FIG. 13, when the injection of the specimen into the specimen analysis kit 100 is completed, the image capturing unit 200 repeatedly displays the reaction region 124, that is, the specimen reaction result 122 at predetermined time intervals. You will shoot continuously.

Here, the photographed image may be repeatedly read along with the image of the identification code by the control unit 320, the sample reaction result 122 using the reading result of the identification code 110 by the control unit 320 ) Can be processed.

Meanwhile, the number of shots of the image capturing unit 200 is not fixed, but may be variously set according to a user's intention.

Here, even if the image capturing unit 200 has a number of photographing shots at predetermined time intervals, the image capturing unit 200 may stop the operation when it is possible to derive an accurate analysis result from the captured image.

In other words, the result of the sample reaction is a certain result is displayed only after a predetermined time, depending on the nature of the reaction pad 120, there may be a case that can obtain a certain result according to the health status of the subject even before reaching the time. have.

Therefore, the control unit 320 may display the analysis result on the display 340 even before a predetermined time passes when a certain result can be obtained based on the repeated captured image by the image capturing unit 200. All analysis is completed.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be apparent to those skilled in the art that such modifications or variations are within the scope of the appended claims.

1: Specimen Analyzer
100: Sample Analysis Kit
200:
300: main body
310: insertion unit
320:
330: data storage
350: sensor

Claims (19)

An image photographing unit for photographing an identification code provided in a specimen analysis kit and a specimen reaction result in which a specimen is injected into the specimen analysis kit and reacted;
A main body mounted with the image capturing unit and into which the specimen analyzing kit is inserted; And
And a detection sensor configured to provide a signal regarding whether the image capturing unit is photographed according to an insertion position of the specimen analyzing kit into the main body unit.
The image photographing unit,
According to the signal provided by the sensor, the specimen analysis device taking a time difference between the identification code and the sample reaction result.
The method of claim 1,
The sensor detects a change in position due to the movement of the specimen analysis kit,
The image photographing unit, the sample analysis device for photographing the identification code and the sample reaction results with a time difference based on the signal provided according to the result detected by the sensor.
The method of claim 1,
And the image photographing unit sequentially photographs the identification code and the sample reaction result with a time difference.
delete delete The method of claim 1,
The main body portion has an insertion portion for inserting the sample analysis kit is inserted,
The detection sensor is a sample analysis device mounted on the bottom surface of the insert.
The method of claim 1,
The detection sensor is a sample analysis device that reacts by contact with one end of the sample analysis kit.
The method of claim 1,
The detection sensor includes a first detection sensor and a second detection sensor for providing a respective signal to the image pickup unit to photograph the identification code and the sample response results, respectively.
9. The method of claim 8,
One end of the specimen analysis kit is sequentially contacted with the first and second detection sensors, the specimen analysis device is implemented to capture the identification code and the result of the sample reaction by the image capture unit.
The method of claim 1,
The main body portion has an insertion portion for inserting the sample analysis kit is inserted,
And the image capturing unit is mounted above the insertion unit.
The method of claim 1,
The image photographing unit is a sample analysis device for photographing the identification code of the sample analysis kit in which the sample is not injected.
12. The method of claim 11,
The detection sensor includes:
When the sample analysis kit in which the sample is not injected is inserted into the main body, whether the sample is photographed with the identification code provided in the sample analysis kit in which the sample is not injected, and the sample analysis kit in which the sample is not injected A sample analysis device for providing a signal for the injection of the sample of.
delete The method of claim 12,
The detection sensor includes a first detection sensor for providing a photographing signal for the identification code of the image pickup unit and a second detection sensor for providing a signal for the injection of the sample.
15. The method of claim 14,
And the image photographing unit photographs a sample reaction result by the sample when the injection of the sample is completed by the signal of the second detection sensor.
16. The method of claim 15,
Sampling of the sample reaction result of the image capture unit is repeatedly implemented at a predetermined time interval.
The method according to any one of claims 1 to 3, 6 to 12, 14 to 16,
And a controller configured to read the identification code image and the sample reaction result image photographed by the image photographing unit, and process the read result of the sample reaction result using the read result of the identification code.
18. The method of claim 17,
And a data storage unit for storing data corresponding to the identification code to process the reading result of the specimen reaction result.
18. The method of claim 17,
And a display unit for displaying a read result of the sample reaction result processed by the control unit.

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