KR102116069B1 - Sample mixing device capable of discriminating the kind of reagent and sample mixing system containing thereof - Google Patents

Abstract

The present invention relates to a sample mixing device capable of discriminating the type of reagent, and more specifically, as a sample mixing device, a reagent information unit containing reaction reagent information in the sample mixing device; Located in the central portion of the biosensor, the sample is introduced, and the reaction chamber is a portion where the sample reacts with the reagent; And a laser emitting unit that is positioned around the reaction chamber and is equipped with a biosensor including a reagent chamber in which a liquid reagent material is stored, shoots a laser at the reagent information unit to read information of the reaction reagent; An air injection unit configured to inject air into the reagent chamber to supply pressure to extrude the liquid reagent material stored in the reagent chamber into the reaction chamber; And a control unit for measuring the reaction reagent information read from the laser emission unit and the reaction when the sample and the reaction reagent are mixed.
According to the sample mixing device capable of discriminating the type of reagent proposed in the present invention and the sample mixing system including the same, the information stored in the reagent information unit, which is located in the biosensor and contains the reaction reagent information, is read through the laser emission unit. By making it possible, it is possible to automatically determine the type of reagent stored in the reagent chamber, and it is easier and simpler to mix and measure the sample, because the type of reagent to be injected can be clarified without writing down the stored sample. Make it possible.

Description

A sample mixing device capable of discriminating the type of reagent and a sample mixing system including the same TECHNICAL FIELD

The present invention relates to a sample mixing device and a sample mixing system including the same, in particular, a sample mixing device capable of automatically determining the type of reagent that is a chemical input and a sample mixing device comprising the same It's about the system.

In general, in the case of a diagnostic sensor using a biochip, there are various measurement methods such as electrochemical detection, potentiometeric detection, and chemiluminescent detection. A biosensor can be said to be a system that uses biological elements or mimics biological elements to obtain useful signals, such as color, fluorescence, and electrical signals, when obtaining information from a measurement object. Therefore, biosensor is a future-oriented fusion technology that requires technologies across science, such as electronics, chemistry, biology, materials engineering, and enzyme engineering.

The main fields of use for biosensors are medical, environmental, food, industrial, military, and experimental research. Of these, medical is the most widely used field, and biosensors for blood glucose measurement mainly occupy most of the market size. Such a biosensor has a small amount of sample required from a technical point of view, high measurement accuracy, low influence of the surrounding environment, simple measurement, and real-time measurement. The recent research and development trend focuses on developing biosensors and disposable biosensors using a minimum amount of samples, and a lot of technical research has been conducted in manufacturing biosensors to achieve this purpose.

In addition, recently, a microfluidic device is used to inject a sample and a reactant into a microfluidic channel to cause a mixing reaction, and the intensity of a signal (photoreaction, etc.) generated at this time is measured to measure the desired material The concentration is often measured.

In this case, a complex system is required when injecting or mixing a fluid for accurate quantification of a sample or reagent. In particular, in the case of a chemiluminescence biosensor, a quantitative mixing ratio of a sample, a reaction medium, a luminous body, etc. must be maintained in order for the reaction to occur. Therefore, it is very difficult to quantify them by accurately measuring signals in the measurement unit.

Accordingly, a method of storing a sample of a quantity in a pre-made biosensor container and then mixing the sample with a sample mixing device to inject a sample or reagent into a mixing chamber of a biosensor is being developed. However, when the samples or reagents are stored in advance as described above, there is a problem in that the type of the stored reagents cannot be remembered or which reagents are stored in which reagent chamber (container) of the biosensor.

On the other hand, as prior art related to the present invention, Republic of Korea Patent Registration No. 10-0901467 (invention name: micro-mixing device of the sample and a lab-on-a-chip containing the same) and Korea Patent Registration No. 10-1800552 (invention name: Sample mixing device) and the like have been disclosed.

The present invention has been proposed to solve the above problems of the previously proposed methods, and is located in the biosensor so that the information stored in the reagent information unit containing the information of the reaction reagent can be read through the laser emission unit, the reagent chamber Reagents that can automatically determine the types of reagents stored in, and make it easier and simpler to mix and measure samples, because the type of reagents to be input can be clarified without writing down the stored samples. An object of the present invention is to provide a sample mixing device capable of discriminating types and a sample mixing system including the same.

A sample mixing device capable of determining the type of reagent according to the features of the present invention for achieving the above object,

As a sample mixing device,

A reagent information unit containing information of a reaction reagent; Located in the central portion of the biosensor, the sample is introduced, and the reaction chamber is a portion where the sample reacts with the reagent; And a reagent chamber positioned around the reaction chamber and storing a reagent material in a liquid state, when attached to the sample mixing device,

A laser emitting unit that shoots a laser to the reagent information unit and reads information of the reaction reagent;

An air injection unit configured to inject air into the reagent chamber to supply pressure to extrude the liquid reagent material stored in the reagent chamber into the reaction chamber; And

It is characterized in that it comprises a control unit for measuring the reaction of the reaction reagent when the sample and the reaction reagent is mixed with the information read from the laser emission unit.

Preferably, the body of the biosensor,

It can be made of a transparent material.

More preferably, the body of the biosensor,

It can be made of transparent acrylic (Acrylic).

More preferably, the body of the biosensor,

It can be made of transparent glass.

Preferably, the reagent information unit,

In the form of a barcode, it may contain information of the reaction reagent.

Preferably, the reagent information unit,

It may contain information of the reaction reagent in the form of a QR code.

Preferably, the reagent information unit,

It may contain information of the reaction reagent in the form of Braille.

Preferably, the reagent information unit,

The biosensor may be configured on one surface attached to the sample mixing device.

More preferably, the reagent information unit,

It may be configured inside the biosensor made of a transparent material.

Preferably, the reagent information unit,

As a single configuration, it is possible to contain all information of the reaction reagent stored in the reagent chamber.

Preferably, the reagent information unit,

It can consist of two or more.

Preferably, the reaction chamber,

It can be configured in the form of a cylinder.

Preferably, the reagent chamber,

A single type of liquid reagent material is accommodated, and may be composed of a plurality.

Preferably, the reagent chamber,

A space in which the liquid reagent material is accommodated, and may be configured in the form of a sphere.

Preferably, the reagent chamber,

As a space in which the liquid reagent material is accommodated, it may be configured in the form of a cube.

Preferably, the reagent chamber,

As a space in which the liquid reagent material is accommodated, a cone may be attached above and below the cylinder.

Preferably, the biosensor,

A flow path pipe for introducing liquid reagent material stored in the reagent chamber into the reaction chamber; And

In order to extrude the liquid reagent material stored in the reagent chamber, an air injection tube may be further provided to inject air into the reagent chamber to supply pressure.

More preferably, the flow path pipe,

One end may be configured to communicate with the reagent chamber at the bottom of the reagent chamber, and the other end to communicate with the reaction chamber at the side of the reaction chamber.

More preferably, the flow path pipe,

Before the air is injected into the reagent chamber through the air injection tube and extrudes the liquid reagent substance stored in the reagent chamber, the liquid reagent substance stored in the reagent chamber may be blocked from flowing.

More preferably, the air injection pipe,

One end may be configured to communicate with the reagent chamber on the side of the reagent chamber, and the other end to communicate with the outside of the biosensor on one side where the biosensor is attached to the sample mixing device.

In addition, a sample mixing system capable of determining the type of reagent according to the features of the present invention for achieving the above object,

Reagent information section containing the information of the reaction reagent, the sample is placed in the center of the biosensor, and the reaction chamber, which is the part where the sample reacts with the reagent, and the reagent chamber that is located around the reaction chamber to store the liquid reagent material A reagent discrimination biosensor capable of discriminating the type of reagent; And

A laser emitting unit that shoots a laser to the reagent information unit to read the information of the reaction reagent, and air to inject air into the reagent chamber to supply pressure to extrude the liquid reagent material stored in the reagent chamber into the reaction chamber An injection unit, and a control unit for controlling the information of the reaction reagent read from the laser emission unit and measuring the reaction when the sample and the reaction reagent are mixed, including a sample mixing device capable of determining the type of reagent It is characterized by its configuration.

According to the sample mixing device capable of discriminating the type of reagent proposed in the present invention and the sample mixing system including the same, the information stored in the reagent information unit, which is located in the biosensor and contains the reaction reagent information, is read through the laser emission unit. By making it possible, it is possible to automatically determine the type of reagent stored in the reagent chamber, and it is easier and simpler to mix and measure the sample, because the type of reagent to be injected can be clarified without writing down the stored sample. Make it possible.

1 is a block diagram of a sample mixing device capable of determining the type of reagent according to an embodiment of the present invention.
FIG. 2 is a view of a reagent discriminating biosensor capable of discriminating the type of reagent according to one embodiment of the present invention as viewed from the side attached to a sample mixing device capable of discriminating the type of reagent according to one embodiment of the present invention. Drawing showing.
FIG. 3 is a view showing a reagent discrimination biosensor capable of discriminating a reagent type according to an embodiment of the present invention as viewed from above.
4 is a perspective view of a reagent discriminating biosensor capable of discriminating the type of reagent according to an embodiment of the present invention.
5 is a view showing a state in which the reagent information is made of a barcode in a reagent discrimination biosensor capable of discriminating the type of reagent according to an embodiment of the present invention.
6 is a view showing a state in which the reagent information is made of a QR code in a reagent discrimination biosensor capable of discriminating the type of reagent according to another embodiment of the present invention.
7 is a view showing a state in which the reagent information unit is made in braille in a reagent discrimination biosensor capable of discriminating the type of reagent according to another embodiment of the present invention.
8 is a diagram showing a sample mixing device capable of determining the type of reagent according to an embodiment of the present invention.
9 is a view showing a sample mixing device capable of determining the type of reagent according to an embodiment of the present invention.
10 is a reagent discrimination biosensor capable of discriminating the type of reagent according to an embodiment of the present invention is used to be mounted on a sample mixing device capable of discriminating the type of reagent according to an embodiment of the present invention. Drawing shown.

Hereinafter, preferred embodiments will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily implement the present invention. However, in the detailed description of a preferred embodiment of the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, the same or similar reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, throughout the specification, when a part is said to be 'connected' to another part, it is not only 'directly connected', but also 'indirectly connected' with another element in between. Includes. In addition, "including" a component means that other components may be further included instead of excluding other components, unless otherwise stated.

1 is a block diagram of a sample mixing device 200 capable of determining the type of reagent according to an embodiment of the present invention. As shown in FIG. 1, the sample mixing device 200 capable of determining the type of reagent includes: a reagent information unit 110 containing information of a reaction reagent in the sample mixing device; Located in the central portion of the biosensor, the sample is introduced, and the reaction chamber 120 is a portion where the sample reacts with the reagent; And when the biosensor 100, which is located around the reaction chamber 120 and includes a reagent chamber 130 in which a liquid reagent substance is stored, is mounted with a laser to the reagent information unit 110 to display information of the reaction reagent. A laser emitting unit 210 for reading; In order to extrude the liquid reagent material stored in the reagent chamber 130 into the reaction chamber 120, the air injection unit 220 to inject air into the reagent chamber 130 to supply pressure; And a control unit 230 that measures the reaction reagent information read from the laser emission unit 210 and the reaction when the sample and the reaction reagent are mixed.

2 to 4 is a sample mixing device capable of determining the type of reagent according to an embodiment of the present invention the reagent discriminating biosensor 100 capable of determining the type of reagent according to an embodiment of the present invention ( 200) is a view showing the state viewed from the side attached to, the state viewed from above, and a perspective view, respectively. 2 to 4, the reagent information unit 110 may be located on the lower surface of the body of the biosensor, and the reaction chamber 120 may be located at the center of the biosensor. In addition, the reagent chamber 130 may be positioned at intervals on both sides of the reaction chamber 120, but is not limited to such a position or arrangement.

Depending on the embodiment, the biosensor body may be made of a transparent material. As such a transparent material, it may be made of at least any one of transparent acrylic and glass, but is not limited to the materials listed above. When the body of the biosensor is made of a transparent material, it is possible to measure the amount of light generated from the light emitting material generated by mixing the sample and the reagent from the outside.

The reagent information unit 110 may be configured to contain information of a reaction reagent stored in the reagent chamber 130. In order to read the reaction reagent information, the sample mixing device 200 may shoot a laser to the reagent information unit 110 to read the stored information. Accordingly, the reagent information unit 110 may take the form of a code such as a barcode or a QR code containing information, or may be made in the form of a braille so that information can be read according to the reflected form of the laser. In addition, when the laser emitted from the sample mixing device 200 is visible light, the reagent information unit 110 may contain information in a manner in which small letters are described. However, the reagent information unit 110 is not limited to the methods listed above as a method of containing the information of the reaction reagent, and may be configured in any form that may include information.

5 is a view showing a state in which the reagent information unit 110 is made of a barcode in the reagent discrimination biosensor 100 capable of discriminating the type of reagent according to an embodiment of the present invention, and FIG. 6 is another example of the present invention This is a view showing a state in which the reagent information unit 110 is made of a QR code in the reagent discrimination biosensor 100 capable of discriminating the type of reagent according to an embodiment. 5 and 6, the reagent information unit 110 is configured to be single, and may include all of the reaction reagent information.

7 is a view showing a state in which the reagent information unit 110 is made in braille in the reagent discrimination biosensor 100 capable of discriminating the type of reagent according to another embodiment of the present invention. According to an embodiment, as shown in FIG. 7, the reagent information unit 110 may be composed of one or more, and when the number of reagent information units 110 is the same as the number of reagent chambers 130 as shown in FIG. 7, One reagent chamber 130 may correspond to one reagent information unit 110 on a one-to-one basis to include information.

Depending on the embodiment, the reagent information unit 110, as shown in Figures 4 to 7, the biosensor 100 is a sample mixing device that can determine the type of reagent according to an embodiment of the present invention ( 200). At this time, the reagent information unit 110 may be in the form of a sticker or a form printed on one surface of the biosensor 100, but is not limited thereto.

In addition, when the body of the biosensor 100 is made of a transparent material, the reagent information unit 110 may be configured inside the biosensor 100. In this case, the laser generated in the sample mixing device 200 capable of discriminating the type of reagent according to an embodiment of the present invention may penetrate into the interior of the biosensor 100.

5 and 6, the reagent information unit 110 may be configured as a single unit to contain all of the reaction reagent information stored in the reagent chamber 130. When the reagent information unit 110 is configured to be single, the reagent information unit 110 stores not only information on the chemical type of the reaction reagent stored in the reagent chamber 130, but also any reaction reagent in the reagent chamber 130. It can include location information of the reaction reagent.

In addition, as described in FIG. 7 above, the reagent information unit 110 may be composed of two or more. 7, the number of reagent chambers 130 and the number of reagent information units 110 coincide, so that one-to-one correspondence is possible, but according to embodiments, the number of reagent chambers 130 and reagent information units ( The number of 110) may not exactly match, and in this case, one reagent information unit 110 may include information on the chemical type of the reaction reagent and location information of the reaction reagent stored in the plurality of reagent chambers 130. have.

The reaction chamber 120 is a space located in the center of the biosensor 100, and a sample may be introduced because the upper portion is pierced, and may be a space where the sample reacts with the reagent received from the reagent chamber 130. . The reaction chamber 120 may be configured in the form of a cylinder, and as shown in FIGS. 2 to 7, the hemisphere may be formed in a form attached to the lower surface of the cylinder. However, it is not limited to the types listed above.

The reagent chamber 130 may be located around the reaction chamber 120 to store a liquid reagent material. In one reagent chamber 130, a single type of liquid reaction reagent is stored, and the reagent chamber 130 in the reagent determination biosensor 100 capable of determining the type of reagent according to an embodiment of the present invention, A single type of liquid reagent material is accommodated, and may be composed of a plurality. 2 to 7, a reagent discriminating biosensor 100 capable of discriminating the type of reagent, including four reagent chambers 130 containing a single type of liquid reagent material, can be seen. .

The reagent chamber 130 is a space in which a liquid reagent material is accommodated, and may be formed of at least one of a sphere shape, a cube shape, and a cone attached to the top and bottom of a cylinder. However, the form of the reagent chamber 130 is not limited to the types listed above, and it is not necessary to include only a single type of reagent chamber 130 in one biosensor 100.

The reagent discrimination biosensor 100 capable of discriminating the type of reagents according to another embodiment of the present invention allows the liquid reagent material stored in the reagent chamber 130 to be introduced into the reaction chamber 120. In order to extrude the liquid reagent material stored in the flow path pipe 131 and the reagent chamber 130, an air injection pipe 132 may be further provided to inject air into the reagent chamber 130 to supply pressure. have.

The flow path tube 131 is configured to draw the liquid reagent material stored in the reagent chamber 130 into the reaction chamber 120, and may be in the form of a straight tube, one end of which is the lower end of the reagent chamber 130 In the communication with the reagent chamber 130, the other end may be configured to communicate with the reaction chamber 120 on the side of the reaction chamber 120.

In addition, the flow path tube 131, before the air is injected into the reagent chamber 130 through the air injection pipe 132 to extrude the liquid reagent material stored in the reagent chamber 130, the reagent chamber 130 It may be blocked so as not to flow the liquid reagent material stored in. At this time, as a method of blocking the flow path pipe 131, a form of a thin film that is gripped when pressure is applied; Or as a semi-water-soluble material, it may be in a form filled with a blocking solution that can be separated without being mixed with a water-soluble sample, but is not limited to such a form.

In the form in which the flow path pipe 131 is blocked using a blocking solution, the property of separating two substances into two phases using an aqueous two phase system (ATPs) may be applied. More specifically, using a phase separation method of polyethylene glycol (PEG) -Dextran, the blocking solution is provided to include any one material selected from polyethylene glycol or dextran, and the sample or reagent is polyethylene glycol. Alternatively, it may be desirable to have another one selected from dextran. In this case, after all the samples and reagents are mixed, it is easy to separate the blocking solution from the mixed substances, and thus, there is an advantage of easy operation.

The air injection pipe 132 is configured to inject air into the reagent chamber 130 to supply pressure to extrude the liquid reagent material stored in the reagent chamber 130, and may be in the form of a straight conduit. There is, one end of the reagent chamber 130 in communication with the reagent chamber 130, the other end of the biosensor 100 is a sample mixing device 200 that can determine the type of reagent according to an embodiment of the present invention ) May be configured to communicate with the outside of the biosensor 100 on one side attached to the.

8 is a diagram illustrating a sample mixing device 200 capable of determining the type of reagent according to an embodiment of the present invention, and FIG. 9 is capable of determining the type of reagent according to an embodiment of the present invention. This is a diagram showing the sample mixing device 200. 8 and 9, the sample mixing device 200 capable of determining the type of reagent according to an embodiment of the present invention can determine the type of reagent according to an embodiment of the present invention. A laser emission unit 210 that shoots a laser at the reagent information unit 110 of the reagent discrimination biosensor 100 to read the stored information; And an air injection unit 220 that is connected to the air injection tube 132 of the biosensor 100 and injects air to extrude the reaction reagent stored in the reagent chamber 130.

The laser emitting unit 210 is a portion that shoots a laser at the reagent information unit 110, and the biosensor 100 is mounted on the sample mixing device 200 capable of determining the type of reagent according to an embodiment of the present invention. At this time, it may be configured in a portion where the reagent information unit 110 is located. The type of light emitted from the laser emitting unit 210 may be a type of light suitable for reading stored information according to the type of the reagent information unit 110.

The air injection unit 220 is a portion that releases air, and when the biosensor 100 is mounted on the sample mixing device 200, the air injection tube 132 is configured in a portion that communicates with the outside of the biosensor 100. Can be. Accordingly, the air injection pipe 132 of the biosensor 100 and the air injection unit 220 of the sample mixing device 200 capable of determining the type of reagent according to an embodiment of the present invention may be connected, By injecting air into the reagent chamber 130 through the connected air injection pipe 132, the reaction reagent stored in the reagent chamber 130 can be extruded into the reaction chamber 120.

10 is a reagent mixing biosensor 100 capable of determining the type of reagent according to an embodiment of the present invention to a sample mixing device 200 capable of determining the type of reagent according to an embodiment of the present invention It is a diagram showing how it is mounted and used. As shown in FIG. 10, when the biosensor 100 is mounted on the sample mixing device 200, light is emitted from the laser emitting unit 210 to read information of the reaction reagent stored in the reagent information unit 110. The air injection pipe 132 and the air injection unit 220 are connected to allow the reaction reagent stored in the reagent chamber 130 to be extruded.

The control unit 230 may control the information of the reaction reagent read from the laser emission unit 210, and may be configured to measure a reaction when a sample and a reaction reagent are mixed. More specifically, the control unit 230 is the order in which air is generated in the air injection unit 220 of the sample mixing device 200 capable of determining the type of reagent according to an embodiment of the present invention, and the laser emission unit ( 210, a series of sensing processes using the biosensor 100 can be automatically recorded and measured using the information of the reaction reagent stored in the corresponding reagent chamber 130. Accordingly, even if the user does not record or check by hand, it is possible to know to what extent chemical substances are included in the sample to be tested automatically, thereby making biosensoring easier and more convenient.

The sample mixing system capable of determining the type of reagent according to an embodiment of the present invention, the reagent information unit 110 containing the information of the reaction reagent, located in the central portion of the biosensor, the sample is injected, and the sample reacts with the reagent The reaction chamber 120 and the reaction chamber 120, which is located around the reaction chamber 120, and includes a reagent chamber 130 in which liquid reagent material is stored, is a reagent determination biosensor 100 capable of determining the type of reagent. ; And a laser emitting unit 210 that reads information of a reaction reagent by shooting a laser at the reagent information unit 110, a reagent chamber 130 for extruding the liquid reagent material stored in the reagent chamber 130 into the reaction chamber 120. ) To control the information of the reaction reagent read from the air injection unit 220 and the laser emission unit 210 to supply pressure by injecting air, and a control unit for measuring a reaction when a sample and a reaction reagent are mixed It is characterized in that it comprises a sample mixing device 200 capable of determining the type of reagent, including (230).

The details related to the respective configurations have been sufficiently described with respect to the sample mixing device 200 capable of determining the type of reagent according to an embodiment of the present invention, and thus detailed description will be omitted.

As described above, according to the sample mixing device 200 capable of discriminating the type of reagent proposed in the present invention and the sample mixing system including the same, the reagent containing the information of the reaction reagent is located in the biosensor 100 By allowing the information stored in the information unit 110 to be read through the laser emission unit 210, it is possible to automatically determine the type of reagent stored in the reagent chamber 130, without having to write down the stored sample separately. The type of reagent to be injected can be clarified, making it easier and simpler to mix and measure samples.

The present invention described above can be variously modified or applied by a person having ordinary knowledge in the technical field to which the present invention belongs, and the scope of the technical idea according to the present invention should be defined by the following claims.

100: reagent discrimination biosensor capable of discriminating the type of reagent
110: reagent information section
120: reaction chamber
130: reagent chamber
131: Euro tube
132: air injection pipe
200: a sample mixing device capable of determining the type of reagent according to an embodiment of the present invention
210: laser emission unit
220: air injection unit
230: control

Claims (21)

In the sample mixing device,
Reagent information unit 110 containing the information of the reaction reagent; Located in the central portion of the biosensor, the sample is introduced, and the reaction chamber 120 is a portion where the sample reacts with the reagent; And a reagent chamber 130, which is located around the reaction chamber 120 and stores a liquid reagent material, when the biosensor 100 is mounted on the sample mixing device.
A laser emitting unit 210 that shoots a laser at the reagent information unit 110 to read information of a reaction reagent;
In order to extrude the liquid reagent material stored in the reagent chamber 130 into the reaction chamber 120, the air injection unit 220 to inject air into the reagent chamber 130 to supply pressure; And
The control unit 230 controls the information of the reaction reagent read from the laser emission unit 210, and measures the reaction when the sample and the reaction reagent are mixed.
The body of the biosensor 100,
Made of a transparent material, composed of transparent acrylic or transparent glass,
The reagent information unit 110,
It contains the information of the reaction reagent, but it is composed of one of the form of barcode, QR code, and braille.
The biosensor 100,
To extrude the liquid reagent material stored in the reagent chamber 130 and the flow path tube 131 for introducing the liquid reagent material stored in the reagent chamber 130 into the reaction chamber 120, The reagent chamber 130 further includes an air injection tube 132 to supply pressure by injecting air into the inside,
The flow path tube 131,
In the form of a straight tube, one end is configured to communicate with the reagent chamber 130 at the bottom of the reagent chamber 130, and the other end to communicate with the reaction chamber 120 at the side of the reaction chamber 120,
The flow path tube 131,
Before the air is injected into the reagent chamber 130 through the air injection pipe 132 to extrude the liquid reagent material stored in the reagent chamber 130, the liquid stored in the reagent chamber 130 Is blocked so that the reagent material does not flow,
The air injection pipe 132,
In the form of a straight conduit, one end communicates with the reagent chamber 130 on the side of the reagent chamber 130, and the other end is configured to communicate with the outside of the biosensor on one side where the biosensor is attached to the sample mixing device. Characterized in that, the sample mixing device 200 capable of determining the type of reagent.
delete delete delete delete delete delete The method of claim 1, wherein the reagent information unit 110,
The biosensor 100 is characterized in that it is configured on one surface attached to the sample mixing device, a sample mixing device 200 capable of determining the type of reagent.
The method of claim 1, wherein the reagent information unit 110,
A sample mixing device 200 capable of determining the type of reagent, characterized in that it is configured inside the biosensor 100 made of a transparent material.
The method of claim 1, wherein the reagent information unit 110,
As a single configuration, characterized in that it contains all of the reaction reagent information stored in the reagent chamber 130, a sample mixing device 200 capable of determining the type of reagent.
The method of claim 1, wherein the reagent information unit 110,
Characterized in that it consists of two or more, the sample mixing device 200 capable of determining the type of reagent.
The method of claim 1, wherein the reaction chamber 120,
Characterized in that it is configured in the form of a cylinder, a sample mixing device 200 capable of determining the type of reagent.
The method of claim 1, wherein the reagent chamber 130,
A sample mixing device 200 capable of determining the type of reagent, characterized in that each of a single type of liquid reagent material is accommodated and is composed of a plurality of reagents.
The method of claim 1, wherein the reagent chamber 130,
A sample mixing device 200 capable of discriminating the type of reagent, characterized in that it is formed in a spherical shape as a space in which the liquid reagent material is accommodated.
The method of claim 1, wherein the reagent chamber 130,
As a space in which the liquid reagent material is accommodated, characterized in that it is configured in the form of a cube, a sample mixing device 200 capable of determining the type of reagent.
The method of claim 1, wherein the reagent chamber 130,
A sample mixing device 200 capable of discriminating the type of reagent, characterized in that it is configured as a space in which a liquid reagent material is accommodated, and a cone is attached above and below the cylinder.
delete delete delete delete As a sample mixing system,
Reagent information unit 110 containing the information of the reaction reagent, located in the central portion of the biosensor, the sample is introduced and the reaction chamber 120, which is the portion where the sample reacts with the reagent, and is located around the reaction chamber 120 in a liquid state A reagent discriminating biosensor 100 capable of discriminating the type of reagent, including a reagent chamber 130 in which the reagent substance is stored; And
In order to extrude the liquid reagent material stored in the reagent chamber 130, the laser emission unit 210 for reading the reaction reagent information by shooting a laser at the reagent information unit 110, the reaction chamber 120, the Control the information of the reaction reagent read from the air injection unit 220 and the laser emission unit 210 to inject air into the reagent chamber 130 to supply pressure, and when the sample and the reaction reagent are mixed Includes a sample mixing device 200 for determining the type of reagent, including a control unit 230 for measuring the reaction,
The body of the biosensor 100,
Made of a transparent material, composed of transparent acrylic or transparent glass,
The reagent information unit 110,
It contains the information of the reaction reagent, but it is composed of one of the form of barcode, QR code, and braille.
The biosensor 100,
To extrude the liquid reagent material stored in the reagent chamber 130 and the flow path tube 131 for introducing the liquid reagent material stored in the reagent chamber 130 into the reaction chamber 120, The reagent chamber 130 further includes an air injection tube 132 to supply pressure by injecting air into the inside,
The flow path tube 131,
In the form of a straight tube, one end is configured to communicate with the reagent chamber 130 at the bottom of the reagent chamber 130, and the other end to communicate with the reaction chamber 120 at the side of the reaction chamber 120,
The flow path tube 131,
Before the air is injected into the reagent chamber 130 through the air injection pipe 132 to extrude the liquid reagent material stored in the reagent chamber 130, the liquid stored in the reagent chamber 130 Is blocked so that the reagent material does not flow,
The air injection pipe 132,
In the form of a straight conduit, one end communicates with the reagent chamber 130 on the side of the reagent chamber 130, and the other end is configured to communicate with the outside of the biosensor on one side where the biosensor is attached to the sample mixing device. Characterized in that, a sample mixing system capable of determining the type of reagent.

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