KR101098993B1 - Biosensor and device for disease diagnosis using electrode - Google Patents

Abstract

The present invention relates to a biosensor using an electrode and a measuring device in which the measurement results are displayed by analyzing the same, and the disease diagnosis bio to prevent malfunctions caused by a user inputting lot code or biosensor characteristics to the measuring device and an input error. It relates to a sensor and a measuring apparatus thereof.

    In one embodiment of the present invention, the disease diagnosis biosensor includes an electrode on one side of a cutout portion, and a front and rear surface of which a characteristic input unit formed of an encryption area pad, a location recognition area pad, and a common area pad is formed on the outer surface of the other side. It consists of a structure in which the integrally bonded.

Biosensor for Disease Diagnosis

Description

Biosensor for disease diagnosis using electrode and measuring device therefor {Biosensor and device for disease diagnosis using electrode}

The present invention is a disease diagnostic biosensor using an electrode to prevent malfunction and malfunction due to the user directly input the lot code and characteristics of the biosensor to the measuring device that displays the analysis results of the disease diagnostic biosensor through the display And a measuring apparatus thereof.

To measure a disease, a biosensor for diagnosing a disease that reacts with a user's blood and a measuring device for analyzing a specific component (eg, glucose, cholesterol, etc.) contained in the blood are used.

The disease diagnostic biosensor measures disease by an electrochemical method, which is provided with a capillary tube and an electrode.

Such a disease diagnosis biosensor generates a difference in sensitivity according to a manufacturing lot, and since the sensitivity dispersion occurs, the disease measurement value is calculated based on the current value of the electrode by storing a formula according to the sensitivity.

In addition, the selection of the manufacturing lot and the biosensor characteristics is performed by the user's manual operation, but the biosensor characteristic input unit given to the disease diagnosis biosensor is recognized and read by the measuring apparatus, so that more accurate measurement is made.

However, it is pointed out that malfunction of biosensors for disease diagnosis, which is widely used at present, frequently causes malfunctions due to input errors because the user must input lot code and biosensor characteristics directly into the measuring device.

The present invention has been proposed to solve the above problems, the present invention is very easy to use by allowing the user to obtain the accurate analysis value without inputting the lot code and the characteristics of the biosensor given to the biosensor for disease diagnosis In addition, the main purpose is to provide a biosensor for diagnosing disease and its measuring device to prevent malfunctions due to input errors.

In the disease diagnosis biosensor according to the present invention for achieving the above object, an electrode is attached to one side of a cutout and a characteristic input unit separated into an encryption area pad, a location recognition area pad, and a common area pad is formed on the outer surface of the other side. The front and rear formed by the ink is composed of a joint bonded.

In addition, the measuring device of the present invention has a configuration capable of recognizing the information of the disease diagnostic biosensor with three terminals including a power supply terminal, a location recognition terminal and a password recognition terminal.

Hereinafter, the overall configuration of the present invention and specific effects obtained therefrom will be described in detail with reference to the accompanying drawings.

1 is a perspective view illustrating a configuration state of a disease diagnosis biosensor, which is one configuration of the present invention, and FIG. 2 is an enlarged plan view of a characteristic input unit constituting a disease diagnosis biosensor.

As illustrated in the figure, the present invention is composed of a biosensor 10 for diagnosing a disease, and a measuring device 20 for analyzing the biosensor 10 for diagnosing the disease.

The disease diagnosis biosensor 10 is a structure in which the front and rear surfaces having the same configuration are integrally bonded to each other, the configuration of which includes an electrode 3 on one side of the cutout 1 and a characteristic input unit 9 on the other side. Is formed in a constant pattern.

The characteristic input unit 9 is divided into three regions, and the encryption region pad 5, the position recognition region pad 6, and the common region pad 7 are printed with uniform thickness using conductive ink. .

Meanwhile, each cell of the encryption area pad 5 constituting the characteristic input unit 9 may or may not be connected to the common area pad 7, and the common area pad 7 is the position recognition area pad 6. It is shown in Figure 2 that is made of a structure that is in contact with and energized.

When the disease diagnosis biosensor 10 is inserted into the measuring device 20 to measure disease, three areas, that is, the encryption area pad 5, the location recognition area pad 6, and the common area pad 7 are measured. The position recognition terminal 12, the power supply terminal 14, and the cryptographic recognition terminal 16, which constitute the device 20, are in contact with each other.

On the other hand, the position recognition area pad 6 checks the insertion position of how much the biosensor 10 for disease diagnosis is inserted, and instructs the check of the information about the encrypted data through the encryption area pad (5) will be.

When a voltage of 3v is applied to the common area pad 7, the position recognition area pad 6 is inserted into the CPU 18 constituting the measuring device 20. The readout is performed based on the insertion position of the disease diagnosis biosensor 10. At this time, the reading time of the data is when the common area pad 7 and the location recognition area pad 6 are in contact with each other. The area pad 5 reads each piece of encrypted data to complete a total of 2 ⁿ pieces of encrypted data. (Where n is the number of cells in the encryption area pad.)

On the other hand, Figure 2 shows in detail whether the conductive ink is connected to obtain the encrypted data, which is calculated as "1" in the circuit when the encryption area pad 5 and the common area pad 7 are interconnected If the process is separated, and if the process is separated by "0", it is to check the state of the encryption cell in this way to read the characteristics of the biosensor 10 for disease diagnosis.

In addition, the configuration of the measurement device 20 for reading out the disease diagnosis biosensor 10 having the above-described configuration and expressing an analysis value is sequentially performed by the position recognition terminal 12, the power supply terminal 14, and the encryption recognition terminal 16. Is excreted.

And the rear side is made of a configuration that is integrally mounted with the CPU 18 to detect and store this.

According to the present invention configured as described above, when the disease diagnosis biosensor 10 is inserted into the measuring device 20, the position recognition area pad 6 contacts the position recognition terminal 12, and the power supply terminal 14 is a common area. The pad 7 is contacted, and the encryption terminal 16 is in contact with the encryption area pad 5.

When the insertion continues, the position recognition terminal 12 contacts each pad 6a-6b-6c-6d-6e-6f constituting the position recognition area pad 6, and at the same time, the encryption recognition. The terminals 16 are sequentially contacted in the order of the respective pads 5a-5b-5c-5d-5e-5f constituting the encryption area pad 5.

At this time, the power supply terminal 14 supplies power to both sides along the printing surface of the common area pad 7, and the position recognition terminal 12 and the password recognition terminal 16 are shown in FIG. Is connected to each other to achieve a mutually organic operation.

At this time, the position recognition terminal 12 has the intersection of the "0" potential and the power supply value, and the encryption recognition terminal 16 is in contact with each other in the order of 5a-5b-5c-5d-5e-5f, so that the presence of each printing surface exists. It has a potential of the power supply value "1" or "0" depending on / none.

At this time, the value of the cipher recognition terminal 16 obtained according to the state of each terminal can be represented by the following truth table.

Contact order Power terminal Location recognition terminal Password recognition terminal Password printing page One 0 0 0 radish 2 One One One U 0 radish 3 One 0 0 radish 4 One One One U 0 radish 5 One 0 0 radish 6 One One One U 0 radish 7 One 0 0 radish 8 One One One U 0 radish 9 One 0 0 radish 10 One One One U 0 radish 11 One 0 0 radish 12 One One One U 0 radish

The above truth table is created as a time chart for insertion time, as shown in FIG.

That is, the position recognition terminal 12 can obtain 2 ⁿ encrypted data using three terminals only by increasing the number of cells in the position and the encryption area each time the power supply value is 1 (where n is the encryption area). The number of cells in the pad.)

As described above, according to the present invention, it is useful to calculate the disease analysis value more accurately by immediately recognizing and analyzing the lot code and the characteristics of the biosensor, which are given to the biosensor for disease diagnosis, without a user directly inputting it. It is an invention.

Looking at the embodiment of the present invention made of the above configuration in more detail as follows.

That is, the disease diagnosis biosensor including an encryption region pad 5, a position recognition region pad 6, and a common region pad 7 on the outer surface of the insulating film disposed on one side of the electrode 3 and coated on the surface of the other side ( 10) by injecting the blood of the examinee and inserting it into the measuring device 20 will be able to recognize the characteristics of the lot code and the biosensor.

At this time, the disease diagnosis biosensor 10 is recognized by the power supply terminal 14, the position recognition terminal 12, and the cryptographic recognition terminal 16 constituting the measuring device 20, and analyzed by the CPU 18 based on this. You get a value.

1 is a view illustrating a configuration of a disease sensory biosensor for one component of the present invention, (a) is a plan view (b) is a rear view.

Figure 2 is an enlarged plan view of the characteristic input unit constituting the biosensor for disease diagnosis

3 is a circuit diagram of a measuring device of one configuration of the present invention;

4 is a time chart diagram of the present invention.

<Explanation of symbols for the main parts of the drawings>

5: encryption area pad 6: location recognition area pad

7: common area pad 10: biosensor

12: Position recognition terminal 14: Power terminal

16: password recognition terminal 20: measuring device

Claims (7)

One side of the cutout is characterized in that the electrode is added and the front and back formed by conductive ink integrally formed on the outer surface of the other side, the characteristic input unit divided into the encryption area pad, the position recognition area pad and the common area pad. Biosensor for disease diagnosis. [Claim 2] The biosensor for diagnosing diseases of claim 1, wherein the position recognition area pad has a structure connected to the common area pad. [Claim 2] The biosensor for diagnosing diseases of claim 1, wherein the encryption area pad has a structure that is alternately bonded or separated from the common area pad. The disease-detecting biosensor of claim 1, wherein the encryption area pad represents information of the disease-detecting biosensor, which includes a lot code and an expiration date and characteristics. Measuring device, characterized in that for recognizing the information of the biosensor for disease diagnosis with three terminals including a power terminal, a location recognition terminal and a password recognition terminal. delete delete

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