KR102175186B1 - Auto analysis system for strip - Google Patents

Abstract

Disclosed is an automatic strip analysis system capable of automatically performing strip pretreatment and analysis in one equipment.
The automatic strip analysis apparatus according to the present invention includes a strip module in which a plurality of strips are formed and an analysis object is stored in each strip; A reagent dispensing module for dispensing reagents to each strip of the strip module and running in a left-right direction above the strip module; A pretreatment reaction inducing module for vibrating the strip module so that an analyte and a reagent in each strip of the strip module react; A residual reagent suction module configured to suck reagents remaining in each strip of the strip module after the reaction between the analyte and the reagent; A strip drying module for drying the inside of each strip of the strip module from which the reagent has been removed; And an analysis module running in a left-right direction above the strip module and analyzing each strip of the strip module.

Description

Strip automatic analysis system capable of strip pretreatment and analysis {AUTO ANALYSIS SYSTEM FOR STRIP}

The present invention relates to a strip analysis technology, and more particularly, to a strip automatic analysis system capable of automatically performing not only strip pretreatment but also analysis in one equipment.

Strip analysis is a method used for immunological or molecular diagnosis.

For strip analysis, pretreatment equipment for color development of the strip is required, and analysis equipment for analysis of results is also required.

Conventionally, after pre-treating the strip using a pre-treatment equipment, the pre-treated strip was transferred to an analysis equipment to check the results. That is, in the conventional case, the pretreatment equipment and the analysis equipment were separated separately.

Therefore, in the conventional case, a lot of time and human labor were required for strip analysis.

Prior literature related to the present invention includes a test strip and an analysis device disclosed in Korean Patent Application Publication No. 10-2011-0134017 (published on Dec. 14, 2011).

It is an object of the present invention to provide a system for performing immunodiagnosis or molecular diagnosis using a strip analysis method, and to provide an automatic strip analysis system capable of automatically performing strip pretreatment to analysis in one equipment.

A strip automatic analysis system according to an embodiment of the present invention for achieving the above object includes a strip module in which a plurality of strips are formed and an analysis object is stored in each strip; A reagent dispensing module for dispensing reagents to each strip of the strip module and running in a left-right direction above the strip module; A pretreatment reaction inducing module for vibrating the strip module so that an analyte and a reagent in each strip of the strip module react; A residual reagent suction module configured to suck reagents remaining in each strip of the strip module after the reaction between the analyte and the reagent; A strip drying module for drying the inside of each strip of the strip module from which the reagent has been removed; And an analysis module running in a left-right direction above the strip module and analyzing each strip of the strip module.

In this case, the reagent dispensing module may be located on one side in the left and right direction, and the analysis module may be located on the other side in the left and right direction. In this case, the reagent dispensing module and the analysis module may travel in the left and right directions on the same transfer rail.

In addition, the residual reagent suction module and the strip drying module may travel in a left-right direction from an upper portion of the strip module.

In addition, the pretreatment reaction inducing module may vibrate the strip module.

In addition, the pretreatment reaction inducing module may tilt the strip module. In this case, it is preferable that the angle when the strip module is inclined is 4° to 8.5° based on the bottom surface of the strip module.

In addition, the reaction module may be coupled to the lower portion of the strip module.

In addition, the reagent dispensing module and the residual reagent suction module may move simultaneously while being attached to each other.

In addition, the strip drying module may include a heater that heats air and a blower that blows the heated air.

In addition, the strip drying module may include a hot wire dryer or a lamp dryer.

In addition, the strip drying module may be coupled to the reagent dispensing module or the analysis module in a detachable form. In this case, the strip drying module may be magnetically coupled to the reagent dispensing module or the analysis module.

In addition, the residual reagent suction module and the strip drying module are simultaneously driven, so that the residual reagent suction and the strip drying may be performed simultaneously.

In addition, the analysis module may include an image sensor that photographs each strip of the strip module and transmits the image to the analysis computer. In this case, the analysis module may further include an illuminator that enables imaging by the image sensor.

According to the strip automatic analysis system according to the present invention, not only can the pretreatment of the strip be sequentially performed through the reagent dispensing module, the reaction module, the strip drying module, and the residual reagent suction module, but also the analysis after strip pretreatment through the analysis module. Can be performed, so that all strip analysis procedures can be performed automatically in one instrument.

Further, in the strip automatic analysis system according to the present invention, the pretreatment time can be shortened as much as possible by the strip drying module and the residual reagent suction module, so that many samples can be analyzed at a specified time.

1 schematically shows a strip automatic analysis system according to an embodiment of the present invention.
2 is a detailed view of the strip drying module of FIG. 1.
3 shows the analysis module of FIG. 1 in detail.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms, only these embodiments make the disclosure of the present invention complete, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same elements throughout the specification.

Hereinafter, an automatic strip analysis system according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 schematically shows a strip automatic analysis system according to an embodiment of the present invention.

1, the strip automatic analysis system according to the present invention includes a strip module 110, a reagent dispensing module 120, a pretreatment reaction induction module 130, a residual reagent suction module 140, and a strip drying module 150. , And an analysis module 160. The modules may be controlled by a separate control module (not shown).

The strip module 110 includes a plurality of strips 111. Each strip stores an analyte, such as blood.

The reagent dispensing module 120 runs left and right from the top of the strip module 110, and dispenses a reagent (eg, an antigen reagent reacting with an antibody in blood) to each strip 111 of the strip module 110. . For example, if the strip module includes 10 strips, the reagent dispensing module moves from the initial position (left side of the housing in Fig. 1) to the top of the first strip to dispense reagents, and then moves to the top of the second strip to dispense reagents. Is dispensed, and the reagent is dispensed by moving to the top of the final 10th strip. Thereafter, the reagent dispensing module moves to the initial position.

The amount of the reagent dispensed in the reagent dispensing module 120 is transmitted to the control module, so that additional dispensing or pretreatment reactions may be performed in the control module.

The pretreatment reaction module 130 induces the reaction between an analyte and a reagent in each strip 111 of the strip module 110.

To this end, the pretreatment reaction induction module 130 may vibrate the strip module 110. The strip module 110 may also vibrate due to the vibration of the pretreatment reaction inducing module 130 (for example, vibration in the front-rear direction), and through this, the reaction between the analyte and the reagent in the strip 111 may be induced.

In addition, the pretreatment reaction induction module 130 may tilt the strip module 110 once or twice or more repeatedly. In this case, when the strip module is inclined, the angle is more preferably 4° to 8.5° based on the bottom surface of the strip module. When the angle when the strip module is inclined is less than 4°, the pretreatment reaction time may be lengthened, and when the angle when the strip module is inclined exceeds 8.5°, the reagent may overflow.

The pretreatment reaction induction module 130 may be coupled to the lower portion of the strip module 110.

The residual reagent suction module 140 sucks the reagent remaining in each strip of the strip module 110 after the reaction between the analyte and the reagent in each strip 111.

When the reagent is sucked into the residual reagent suction module 140, only the analyte for which the reaction is completed may remain in each strip 111. Therefore, the analysis module 160 to be described later enables strip analysis.

The residual reagent suction module 140 may collectively suck the residual reagent into each of the strips 111, but in this case, the size of the residual reagent suction module may increase. Therefore, it is more preferable that the residual reagent suction module 140 sequentially sucks the residual reagents in each strip while traveling in the left and right direction. In this case, the residual reagent suction module 140 may be disposed together with the dispensing module 120 as in the example shown in FIG. 1.

Meanwhile, as shown in FIG. 1, the reagent dispensing module 120 and the residual reagent suction module 140 may be attached to each other. In this case, the reagent dispensing module 120 and the residual reagent suction module 140 ) Can move simultaneously.

The strip drying module 150 dries the inside of each strip 111 of the strip module 110 from which the reaction between the analyte and the reagent and residual reagents are removed. By drying the strip 111, analysis time may be shortened and accuracy may be improved.

To this end, the strip drying module 150 may include a heater 151 for heating air and a blower 152 for blowing heated air. In addition, the strip drying module 150 may include a hot wire dryer or a lamp dryer for heating the strip using a hot wire.

In addition, the strip drying module 150 may dry the inside of each strip at once, but in this case, the size of the strip drying module 150 may increase. Therefore, it is more preferable that the strip drying module 150 dry each strip sequentially while running in the left and right direction.

In addition, the strip drying module 150 may be coupled to the reagent dispensing module 120 or the analysis module 160. In this case, the strip drying module 150 may be coupled to the reagent dispensing module 120 or the analysis module 160 in a detachable form, and may be transferred if necessary. In order to facilitate attachment and detachment of the strip drying module 150, the strip drying module 150 may be magnetically coupled to the reagent dispensing module 120 or the analysis module 160.

In addition, in the automatic strip analysis system according to the present invention, the residual reagent suction module and the strip drying module are simultaneously driven, so that the residual reagent suction and the strip drying can be performed simultaneously. In this case, the strip pretreatment time can be further shortened.

The analysis module 160 runs in the left-right direction from the top of the strip module 110 and analyzes each strip 111 of the strip module 110 that has been pre-processed. For example, if the color of the analyte is changed due to the reaction between the analyte and the reagent, the state of the analyte may be derived by analyzing it in the analysis module 160.

More specifically, the analysis module 160 may include an image sensor 161 that photographs each strip of the strip module 110 and transmits the image to the analysis computer.

In addition, the analysis module 160 may further include an illuminator 162 that enables imaging of an image sensor even in a place where lighting is insufficient. The illuminator 162 may be an LED lighting device, and one illuminator or two or more illuminators per image sensor may be applied.

The illuminator 162 may be disposed such that the irradiation angle is approximately 90° with respect to the strip surface, and may be disposed so that the irradiation angle is approximately 45° to 60° with respect to the strip surface. The former has the advantage of obtaining the brightest image, and the latter has the advantage of suppressing distortion of the reflected image.

Meanwhile, as illustrated in FIG. 1, the reagent dispensing module may be located on one side in the left and right direction, and the analysis module 160 may be located on the other side in the left and right direction. In this case, the reagent dispensing module 120 and the analysis module 170 can travel in the left and right directions on the same transfer rail 170, thereby reducing the system size and simplifying the equipment.

As described above, the automatic strip analysis system according to the present invention can perform pre-processing of strips sequentially through various modules, as well as analysis after strip pre-processing through the analysis module. Therefore, in the automatic strip analysis system according to the present invention, all strip analysis processes can be automatically performed in one device.

Although the above has been described with reference to the embodiments of the present invention, various changes or modifications may be made at the level of a person skilled in the art to which the present invention pertains. Such changes and modifications can be said to belong to the present invention as long as they do not depart from the scope of the technical idea provided by the present invention. Therefore, the scope of the present invention should be determined by the claims set forth below.

110: strip module 111: a plurality of strips
120: reagent dispensing module 130: pretreatment reaction induction module
140: residual reagent suction module 150: strip drying module
160: analysis module 170: transfer rail
151: heater 152: blower
161: image sensor 162: illuminator

Claims (16)

A strip module in which a plurality of strips is formed and an analysis object is stored in each strip;
A reagent dispensing module for dispensing reagents to each strip of the strip module and running in a left-right direction above the strip module;
A pretreatment reaction inducing module for inducing reaction between an analyte and a reagent in each strip of the strip module;
A residual reagent suction module disposed above the strip module and configured to suck reagents remaining in each strip of the strip module after the reaction between the analyte and the reagent;
A strip drying module disposed above the strip module and drying the inside of each strip of the strip module from which the reagent has been removed; And
Including; an analysis module running in the left and right direction above the strip module and analyzing each strip of the strip module,
The strip module, the reagent dispensing module, the pretreatment reaction induction module, the residual reagent suction module, the strip drying module, and the analysis module are arranged in a single device.
The method of claim 1,
The reagent dispensing module is located on one side in the left and right direction, and the analysis module is located on the other side in the left and right direction.
The method of claim 2,
The reagent dispensing module and the analysis module run in a left and right direction on the same transfer rail.
The method of claim 1,
The residual reagent suction module and the strip drying module run in a left-right direction from an upper portion of the strip module.
The method of claim 1,
The pretreatment reaction induction module vibrates the strip module.
The method of claim 1,
The pre-treatment reaction inducing module tilting the strip module, characterized in that the strip automatic analysis system.
The method of claim 6,
Automatic strip analysis system, characterized in that when the strip module is inclined, the angle is 4° to 8.5° based on the bottom of the strip module.
The method of claim 1,
The pretreatment reaction induction module is an automatic strip analysis system, characterized in that coupled to the lower portion of the strip module.
The method of claim 1,
The reagent dispensing module and the residual reagent suction module are attached to each other and move at the same time.
The method of claim 1,
The strip drying module includes a heater for heating air and a blower for blowing the heated air.
The method of claim 1,
The strip drying module is an automatic strip analysis system, characterized in that it comprises a hot wire dryer or a lamp dryer.
The method of claim 1,
The strip drying module is an automatic strip analysis system, characterized in that coupled to the reagent dispensing module or the analysis module in a detachable form.
The method of claim 12,
The strip drying module is magnetically coupled to the reagent dispensing module or the analysis module.
The method of claim 1,
The automatic strip analysis system, characterized in that the residual reagent suction module and the strip drying module are simultaneously driven to perform suction and strip drying at the same time.
The method of claim 1,
And the analysis module includes an image sensor for photographing each strip of the strip module and transmitting the image to an analysis computer.
The method of claim 15,
The analysis module further comprises an illuminator to enable the image sensor to capture an image.

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