KR101863315B1 - Automatic injection type diagnostic kit equipment - Google Patents

Abstract

According to the present invention, an automatic injection-type diagnostic kit equipment comprises: a plurality of storage containers for storing a chemical substance or a measurement substance; a chemical reaction part for receiving the chemical substance and the measurement substance stored in the plurality of storage containers to carry out a chemical reaction; a supply passage connected between the storage container and the chemical reaction part to move the chemical substance or the measurement substance; and an air injection unit for injecting air into each of the plurality of storage containers and selectively providing the substance stored in the storage container to the chemical reaction part. According to the present invention, it is possible to move the substance contained in the container to a planned time and space, thereby enabling diagnosis and measurement by inducing the chemical reaction in a simple and precise way.

Description

[0001] The present invention relates to an automatic injection type diagnostic kit,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a diagnostic kit system for use in medical applications, and more particularly, to a diagnostic kit system for diagnosing a measurement substance by supplying a chemical substance and a measurement substance together to cause a chemical reaction.

Diagnostic kit technology is commonly used in health care, research, agriculture, veterinary and industrial markets.

These diagnostic kit technologies include radiation labeling, enzyme linked immunoassay, chemical colorimetry, fluorescent labeling, chemiluminescence labeling, and electrochemiluminescence labeling.

The diagnostic kit can be divided into a quick diagnostic kit and a diagnostic kit device depending on the application and usage. The rapid diagnosis kit consists of a strip type structure that enables rapid on-site inspection. The diagnostic kit equipment is designed to perform various tests by mixing various chemicals in the materials to be measured in hospitals and laboratories.

Prior art relating to the diagnostic kit is disclosed in Korean Patent No. 10-0704007 (Rapid diagnostic kit using chemiluminescence and chemical fluorescence and its use method), Korean Patent No. 10-0599420 (Membrane strip biosensor system for on-site diagnosis) Patent No. 10-0564269 (multi-array, multi-specific electrochemiluminescence assay cassette, kit and apparatus including the same) and the like have been proposed.

However, most of the conventional diagnostic kit devices including the above-described prior arts have been proposed as a quick diagnostic kit type, and further have a problem in that they can be easily and efficiently mixed with a test substance and a chemiluminescent substance to inspect and diagnose them.

Korean Patent No. 10-0704007 Korean Patent No. 10-0599420 Korean Patent No. 10-0564269

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems described above, and it is an object of the present invention to provide an apparatus and a method for injecting air into each container storing a chemical substance or a measuring substance, The purpose of the diagnostic kit equipment is to provide.

According to an aspect of the present invention, there is provided an automatic injection type diagnostic kit device comprising: a plurality of storage containers for storing a chemical substance or a measurement substance; A chemical reaction unit that receives a chemical substance and a measurement substance stored in the plurality of storage vessels and undergoes a chemical reaction; A supply passage connected between the storage container and the chemical reaction unit to move the chemical substance or the measurement substance; And air injecting means injecting air into the plurality of storage vessels to selectively provide the substance stored in the storage vessel to the chemical reaction unit.

The storage container may include an air injection unit connected to the air injection unit.

Preferably, the supply passage includes a plurality of individual passages connected to the plurality of storage containers, respectively, and a confluent passage through which the individual passages are collected.

The chemical reaction unit may include an air outlet through which the air injected through the air injecting unit is discharged.

Preferably, the plurality of storage vessels and the chemical reaction unit are formed in one sensor box.

At this time, it is preferable that the chemical reaction unit is located at a central portion of the sensor box, and the plurality of storage containers are arranged in a line in the upper left and right sides of the chemical reaction unit in the sensor box.

The confluent passage may be located at an upper portion of the chemical reaction unit, and the individual passage may be connected to the confluent passage from the plurality of the storage vessels.

At this time, it is preferable that the individual passages are connected to each other by a portion connected to the merging passageway higher than a portion connected to the respective storage containers.

Preferably, a cover plate is provided on the upper portion of the sensor box so as to cover the openings of the plurality of storage containers.

The cover plate may have a planar structure, and a cap portion may be formed at a portion corresponding to the air injection portion of the plurality of storage containers.

The air injecting means includes an air pump for supplying air, an injection controller connected to the air pump for supplying air to each of the storage containers and for interrupting the injection air, and a plurality of air It is preferable to include a tube.

At this time, the injection controller preferably includes an air amount adjusting unit for adjusting the amount of air supplied to the storage container, and an on-off valve for interrupting the air injected through the air tube.

The above and other objects and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings in which: In addition to the principal task solutions as described above, various task solutions according to the present invention will be further illustrated and described.

Since the automatic injection type diagnostic kit device according to the present invention is configured to inject air into each container storing the chemical substance or the measurement substance and supply the air to the chemical reaction unit, the substance contained in the container can be moved to the planned time and space So that the chemical reaction can be performed easily and accurately, so that diagnosis and measurement can be effected.

1 is a schematic perspective view showing an automatic injection type diagnostic kit device according to an embodiment of the present invention.
2 is a plan view showing a diagnostic sensor unit of the automatic injection type diagnostic kit apparatus according to an embodiment of the present invention.
3 is a side cross-sectional view of the diagnostic sensor unit of the automatic injection type diagnostic kit device according to the embodiment of the present invention.
4 is a front sectional view of a diagnostic sensor unit of the automatic injection type diagnostic kit device according to an embodiment of the present invention.
5 is a side cross-sectional view showing a configuration including a lid and a cap of a diagnostic sensor unit in the present invention.
FIG. 6 is a side view showing a configuration including a cover and a cap of the diagnostic sensor unit in the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing an automatic injection type diagnostic kit apparatus according to an embodiment of the present invention, wherein FIG. 1 is a schematic overall perspective view, FIGS. 2 to 4 are a plan view, a side sectional view and a front sectional view of a diagnostic sensor unit.

Referring to FIG. 1, an automatic injection type diagnostic kit device according to an embodiment of the present invention includes an air pump 10 for air injection, an injection controller 20 for controlling and controlling the amount of air injected, And a diagnostic sensor unit 50 for performing chemiluminescence measurement.

Reference numeral 15 denotes an air supply pipe for supplying air to the injection controller 20 from the air pump 10, 30 denotes an air tube, and 40 denotes a fence configured as required.

The air pump 10, the air supply pipe 15, the injection controller 20 and the air tube 30 constitute the air injection means. The air injection means is constituted by the diagnostic sensor unit 50 Air is injected into each of the plurality of storage vessels 60 (see FIG. 2) to selectively provide the substance stored in the storage vessel 60 to the chemical reaction unit 70.

That is, the air injecting means includes an air pump 10 for supplying air, an injection controller 20 connected to the air pump 10 to supply air to each of the storage containers 60 for interrupting injection air, And a plurality of air tubes 30 connected to the respective storage containers 60 in the storage tank 20.

Here, the air pump 10 is configured to forcibly inject air by using an electric motor or the like, and can be configured using an air pump 10 which is generally used widely. It is also possible to use other air providing means capable of forcibly supplying air even if the air pump 10 is not used. For example, it is also possible to use an air tank in which air is compressed.

The injection controller 20 is configured to regulate the amount of air supplied to each storage container 60 of the diagnostic sensor unit 50 or to intermittently control the air. The injection controller 20 includes an air amount adjusting unit for adjusting the amount of air supplied to each storage container 60 And an on-off valve for interrupting air to be injected through each of the air tubes 30.

In FIG. 1, the air amount regulating portion may be constituted by an air amount adjusting dial 22, and the opening / closing valve may be constituted by an opening / closing button 25 for supplying or blocking air to each air tube 30.

The injection controller 20 controls the air supplied from the air pump 10 to the air tube 30 connected to the respective storage containers 60 by using the air volume adjusting dial 22 and the opening and closing button 25 Air supply, and air supply to the diagnostic sensor unit 50 so that air can be injected into the diagnostic sensor unit 50 at a predetermined speed and amount.

The injection controller 20 can also be modified in various ways according to the operating conditions as long as the structure can shut off or adjust the air supply while distributing the air.

Now, with reference to Figs. 2 to 4, the diagnostic sensor unit 50 will be described in detail.

The diagnostic sensor unit 50 includes a storage container 60, a supply passage 80, a chemical reaction unit 70, and the like in a sensor box 55.

First, the sensor box 55 may have a hexahedral structure as illustrated in the figure, and the storage containers 60 and the chemical reaction unit 70 are located therein. At this time, the chemical reaction unit 70 is located in the center of the sensor box 55, and the plurality of storage containers 60 are arranged in a row on the upper left side of the chemical reaction unit 70 in the sensor box 55 Lt; / RTI >

The sensor box 55 may be made of a heat-insulating material.

Also, the sensor box 55 may be configured to have a heater or a cooling device so as to appropriately adjust the temperature inside thereof.

Although the sensor box 55 is shown in the drawing, the sensor box 55 may be configured to be hermetically sealed by using a lid or the like to be described with reference to FIGS. 5 and 6. FIG.

Next, the storage container 60 is a container for storing the chemical substance and the measurement substance. Although the sphere structure is illustrated in the drawing, the shape and structure of the container are not limited thereto. .

The storage container 60 is connected to the air tube 30 shown in FIG. 1, and is configured to discharge a chemical substance or a measurement substance stored therein according to the air injection. For this purpose, an air injection unit 65 is formed which can be connected to the air tube 30 in a vertical direction to one side (rear side in the drawing) of the storage container 60.

3 and 4, reference numeral 68 denotes a connection pipe through which air supplied through the air tube 30 is introduced.

The air injection unit 65 may also be used as an inlet for injecting a chemical substance or a measurement substance when air is not supplied.

Of course, the inlet for injecting the chemical substance or the measurement substance may be configured separately from the air injection unit 65.

The supply passage 80 is a passage for supplying the chemical substance or the measurement substance stored in each storage container 60 to the chemical reaction section 70 and has a plurality of individual passages 82 And a confluent passage 84 for collecting the individual passages 82 and supplying the chemical substance or the measurement substance to the chemical reaction section 70.

In this case, it is preferable that the confluent passage 84 is located on the upper part of the chemical reaction part 70 and the individual passages 82 are connected to the confluent passage 84 from the respective storage containers 60 .

Here, the individual passages 82 are preferably formed on the opposite side of the air injection part 65 so that the parts connected to the respective storage containers 60 can smoothly supply chemical substances or the like by the injection air.

In addition, the individual passages 82 are connected to each other through the confluent passage 84 higher than those connected to the respective storage containers 60 as shown in FIG. 4, so that a chemical substance or a measuring substance is supplied to the chemical sensor unit .

It is preferable that the merging passage 84 is arranged to be long in the substantially horizontal direction as illustrated in the drawing and the end portion 84a is disposed to be inclined downwardly to be connected to the chemical reaction unit 70.

Next, the chemical reaction unit 70 is a space in which a chemiluminescence reaction occurs by mixing the chemical substance supplied from the storage container 60 with the measurement substance by air injection, and has a cylindrical structure, a container-like structure, And the like.

It is preferable that an air outlet 75 connected to the outside of the sensor box 55 is formed at one side of the chemical reaction unit 70 so that the air introduced through the air injection unit can be discharged.

The chemical reaction unit 70 may be configured in various ways according to the conditions of execution. For example, the chemical reaction unit 70 may be constructed using a diagnostic kit or the like disclosed in known patent publications 10-0564269, 10-0704007, and 10-0599420 .

The automatic injection type diagnostic kit device as described above can be used in a basic chemiluminescence experiment or a diagnostic experiment using chemiluminescence. The chemical substance and the measurement substance are contained in a designated storage container 60, Air is injected into each of the storage containers 60 at a predetermined time and at a predetermined rate using the means to move chemistry contained in the storage container 60 to the space of the chemical reaction unit 70 to chemiluminesce more easily, Sensing and diagnosis.

5 and 6 are views showing a configuration including a lid and a cap of the diagnostic sensor unit 50 in the present invention.

When the upper part of the sensor box 55 is configured to be opened, a cover plate 90 covering the upper part of the sensor box 55 and blocking the air injection part 65 can be constructed.

The cover plate 90 has a flat plate-like structure using a material such as latex or the like, and may have a structure in which the stopper portions 95 are formed at portions corresponding to the openings of the storage container 60, respectively.

The cover plate 90 is preferably formed with a hole for inserting the stopper portion 95 and the stopper portion 95 can be configured to be detachable from the hole 92.

6, when the plug 95 is detachable, the connection tube 68 is connected to the air injection unit 65 without using a cap when connecting to the air tube 30 described above for air injection, It is possible to constantly connect the air tube 30 to each storage container 60 through the hole 93 formed in the cover plate 90 without opening the cover plate 90. [

As described above, the technical ideas described in the embodiments of the present invention can be implemented independently of each other, and can be implemented in combination with each other. While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art. It is possible. Accordingly, the technical scope of the present invention should be determined by the appended claims.

10: air pump 15: air supply pipe
20: infusion controller 22: air volume adjustment dial
25: opening / closing button 30: air tube
40: Fence 50: Diagnostic sensor part
55: sensor box 60: storage container
65: air injection part 68: connection pipe
70: chemical reaction part 75: air outlet
80: supply passage 82: individual passage
84: confluent passage 90: cover plate
95:

Claims (12)

A plurality of storage containers for storing a chemical substance or a measurement substance; A chemical reaction unit that receives a chemical substance and a measurement substance stored in the plurality of storage vessels and undergoes a chemical reaction; A supply passage connected between the storage container and the chemical reaction unit to move the chemical substance or the measurement substance; An air pump for supplying air to each of the plurality of storage containers; An air amount adjusting unit connected to the air pump to adjust an amount of air supplied to the storage container, and an open / close valve for supplying or blocking air while distributing the air injected through the air pump to the air tubes connected to the respective storage containers An injection controller; And a plurality of air tubes connected to each storage container in the injection controller,
Wherein the plurality of storage containers and the chemical reaction section are arranged in a single sensor box, the chemical reaction section is located at a central portion of the sensor box, and the plurality of storage containers are arranged in a line in the upper left and right of the chemical reaction section in the sensor box Respectively,
An air discharge port formed at one side of the chemical reaction unit and connected to the outside of the sensor box so that the air introduced through the air pump can be discharged and an air discharge port connected to the air tube in a vertical direction at one side of the storage container, Further comprising:
Wherein the supply passage includes a plurality of individual passages connected to the plurality of storage containers and a confluent passage for collecting the individual passages and supplying the chemical substance or the measurement substance to the chemical reaction section,
Wherein the confluent passage is arranged in a long horizontal direction and the end portion is disposed to be inclined downwardly to be connected to the chemical reaction unit,
Wherein the individual passages are formed on the opposite side of the air injecting portion, and a portion connected by the merging passages is connected higher than a portion connected to each of the storage containers. The method according to claim 1,
Wherein a cover plate is provided on an upper portion of the sensor box so as to cover an inlet of the plurality of storage containers. The method of claim 2,
Wherein the lid plate has a flat structure and a cap portion is formed at a portion corresponding to the air injection portion of the plurality of storage containers. delete delete delete delete delete delete delete delete delete

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