KR102415611B1 - Sample measurement system - Google Patents

Abstract

The present invention relates to a sample measuring system, and more particularly, includes a sample collecting unit for collecting and sampling a sample, and a measuring unit for measuring a sample by checking the reaction state of the sampling formed in the sample collecting unit do.
According to the present invention as described above, by mixing the filtered sample stock solution with the fluorescent substrate and the substrate reaction solution including the appeal, and irradiating a wavelength of a specific range, the reaction part with the enzyme can be precisely identified, so that the sample can be precisely analyzed This is possible.

Description

Sample measurement system

The present invention relates to a measurement system, and more particularly, a sample stock solution obtained by filtering a collected sample and a substrate reaction solution containing an enzyme and a fluorescent substance are mixed, irradiated with light of a specific wavelength, and then received and analyzed. It relates to a sample measurement system that can improve the inspection precision for

In general, a method for measuring a biological sample using a solution or suspension containing a biologically active material or virus, cells, and a small multicellular sample is used.

In particular, a decoration for measuring enzyme activity using an enzyme is used, and a kit capable of measuring the enzyme activity is used, as disclosed in conventional Patent Publication No. 10-2019-0075038.

However, the conventional measurement method using a kit is limitedly used only for specific immune-related studies, takes a long reaction time, has different measurement standards depending on the type of enzyme, and has to use expensive equipment, so there is a problem in that the cost increases. .

Accordingly, there is an urgent need to develop a technology capable of improving measurement compatibility with other types of enzymes, as well as shortening reaction and analysis time, thereby improving precision and reducing cost.

Accordingly, the present invention has been devised to solve the above problems. A sample collection unit for collecting and sampling a sample, and a measuring unit for measuring a sample by checking the reaction state of the sampling formed in the sample collection unit By mixing the filtered sample stock solution with the fluorescent substrate and the substrate reaction solution containing the appeal, including , and irradiating a specific range of wavelength, it is possible to precisely check the reaction part with the enzyme, so that precise analysis of the sample is possible. The purpose is to provide a system.

The present invention for achieving the above object includes a sampling unit for collecting and sampling a sample, and a measuring unit for measuring the sample by checking the reaction state of the sampling formed in the sampling unit.

Preferably, the sample collection unit includes a collection unit for collecting a sample, a sample filter unit for filtering the sample collected by the collection unit to generate a sample stock solution, and mixing the sample stock solution of the sample filter unit with a substrate reaction solution. A sampling kit for reacting is included.

And the sampling kit, a kit tube having a reaction space and an installation space therein, is located in the installation space of the kit tube, seals the installation space, is separated from the kit tube to collect the sample undiluted solution of the sample filter part a dropper for, and a reaction tube having a substrate reaction solution inside, and being detachably installed in the kit tube, and injecting the sample stock solution collected with the dropper and the substrate reaction solution of the reaction tube into the reaction space to react

In addition, it further includes a sealing membrane to partition the reaction space from the installation space in an airtight state, and the sample stock solution and the substrate reaction solution are injected into the reaction space by piercing the sealing membrane with an end of the dropper.

And the sampling kit, a kit tube having a reaction space and an installation space therein, is located in the installation space of the kit tube, seals the installation space, is separated from the kit tube to collect the sample undiluted solution of the sample filter part It includes a dropper for, and a substrate reaction solution located in the reaction space of the kit tube, and the sample stock solution collected with the dropper is injected into the reaction space to react with the substrate reaction solution.

In addition, it further includes a sealing film to partition the reaction space from the installation space in a closed state, and the sample stock solution is injected into the reaction space by piercing the sealing film with an end of the dropper.

And the kit tube, a kit tube body having an installation space therein, a reaction space therein, a kit moving tube positioned at the other end of the kit tube body, is provided in the kit moving tube to seal the reaction space and a sealing membrane to be used, and a tube connecting part for moving the kit moving tube along the other end of the kit tube body so that it can be sealed with the outside, and when injecting the sample solution into the reaction space, the kit moving tube is moved in the direction of one end into which the dropper is inserted, and the end of the dropper is moved to a position where the sealing film can be penetrated.

In addition, the tube connection part is connected so that the other end of the kit tube body is inserted between the inner connecting tube and the inner connecting tube integrally formed with the kit moving tube so as to be inserted into the other end of the kit tube body. An external connection tube integrally formed with the kit moving tube to form a space and surround the outside of the other end of the kit tube body, and for screwing the outer peripheral surface of the other end of the kit tube body and the inner peripheral surface of the external connection tube including a threaded portion.

And the screw portion is sealed with Teflon tape wrapped.

In addition, the measuring unit includes a light source unit for irradiating light to the reaction space of the kit tube, a photodiode for receiving the colors of the sample stock solution and the substrate reaction solution reacted by the light irradiated from the light source unit and converting it into electrical energy; and an analysis unit for analyzing the sample stock solution using the electrical energy of the photodiode.

As described above, according to the sample measurement system according to the present invention, by mixing a sample stock solution filtered with a substrate reaction solution including a fluorescent substrate and an appeal, and irradiating a wavelength in a specific range, the reaction part with the enzyme can be precisely confirmed It is a very useful and effective invention that enables precise analysis of samples.

1 is a view showing a sample measuring system according to the present invention,
2 is a view showing a sample collection unit according to the present invention,
3 is a view showing a sampling kit according to the present invention,
4 is a view showing another embodiment of the sampling kit according to the present invention,
5 is a view showing a kit tube of another embodiment according to the present invention,
6 is a view showing a measuring unit according to the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION The detailed description set forth below in conjunction with the appended drawings is intended to describe exemplary embodiments of the present invention and is not intended to represent the only embodiments in which the present invention may be practiced. The following detailed description includes specific details in order to provide a thorough understanding of the present invention. However, one of ordinary skill in the art to which the present invention pertains will recognize that the present invention may be practiced without these specific details.

In some cases, well-known structures and devices may be omitted or shown in block diagram form focusing on core functions of each structure and device in order to avoid obscuring the concept of the present invention.

Throughout the specification, when a part is said to "comprising or including" a certain component, it does not exclude other components unless otherwise stated, meaning that other components may be further included. do. In addition, the term “…unit” described in the specification means a unit that processes at least one function or operation. Also, "a or an", "one", "the" and like related terms are used differently herein in the context of describing the invention (especially in the context of the following claims). Unless indicated or clearly contradicted by context, it may be used in a sense including both the singular and the plural.

In describing the embodiments of the present invention, if it is determined that a detailed description of a well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. And, the terms to be described later are terms defined in consideration of functions in an embodiment of the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Fig. 1 is a view showing a sample measuring system according to the present invention, Fig. 2 is a view showing a sample collecting unit according to the present invention, Fig. 3 is a view showing a sampling kit according to the present invention, and Fig. 4 is this It is a view showing another embodiment of a sampling kit according to the present invention, Figure 5 is a view showing a kit tube of another embodiment according to the present invention, Figure 6 is a view showing a measurement unit according to the present invention.

As shown in the drawing, the sample measuring system includes a sample collecting unit 100 and a measuring unit 200 .

The sample collection unit 100 is provided to collect and sample a sample, and may be carried and moved by the collector.

And the measuring unit 200 is provided to measure the sample by checking the reaction state of the sampling formed in the sample collecting unit (100).

In such a sample measurement system, the sampler moves to the site in possession of at least one sample collection unit 100 , samples the sample using the sample collection unit 100 , and then uses the measurement unit 200 to sample the sample. Measure and analyze sampling.

For this purpose, the sample collection unit 100 includes a collection unit 110 , a sample filter unit 120 , and a sampling kit 130 , as shown in FIG. 2 .

The collecting unit 110 is provided to collect a sample.

And the sample filter unit 120 is provided to filter the sample collected by the collecting unit 110 to generate a sample stock solution.

The sampling kit 130 is provided to mix and react the sample stock solution of the sample filter unit 120 with the substrate reaction solution.

Here, the sampling kit 130 includes a kit tube 132 , a dropper 134 , and a reaction tube 136 as shown in FIG. 3 .

The kit tube 132 has a reaction space portion 132a and an installation space portion 132b formed therein.

And the dropper 134 is located in the installation space portion 132b of the kit tube 132, and seals the installation space portion 132b, is separated from the kit tube 132, and the sample undiluted solution of the sample filter unit 120 is removed. provided for harvesting.

The reaction tube 136 has a substrate reaction solution therein, and is installed to be detachably attached to the kit tube 132 .

Looking at the state of use of the sampling kit 130 , the sample stock solution collected with the dropper 134 and the substrate reaction solution of the reaction tube 136 are injected into the reaction space 132a to react.

In addition, the sampling kit 130 further includes a sealing film (138).

The sealing film 138 is provided to partition the reaction space 132a and the installation space 132b in a closed state.

The sealing membrane 138 pierces the sealing membrane 138 through the end of the dropper 134 to inject the sample stock solution and the substrate reaction solution into the reaction space portion 132a.

Here, it is preferable that the breaking line is formed in the sealing film 138 so as to be easily pierced by the dropper 134 .

Accordingly, it is possible to prevent contamination of the reaction space 132a before the sample stock solution is injected.

On the other hand, as shown in FIG. 4, the sampling kit 130' of another embodiment includes a kit tube 132', a dropper 134', and a substrate reaction solution 136'.

The kit tube 132' is formed with a reaction space portion 132a' and an installation space portion 132b' therein.

And the dropper 134' is located in the installation space portion 132b' of the kit tube 132', and seals the installation space portion 132b', is separated from the kit tube 132', and the sample filter unit 120 ) is provided to collect the sample stock solution.

The substrate reaction solution 136' is located in the reaction space portion 132a' of the kit tube 132'.

Looking at the state of use of the sampling kit 130', the sample stock solution collected with the dropper 134' is injected into the reaction space 132a' to react with the substrate reaction solution.

Here, the sampling kit 130' further includes a sealing film 138'.

The sealing film 138' is provided to partition the reaction space portion 132a' from the installation space portion 132b' in a closed state.

The sealing membrane 138' penetrates the sealing membrane 138' through the end of the dropper 134' and injects the sample stock solution into the reaction space 132a' to react with the substrate reaction solution 136'.

Here, the sealing film 138' is preferably formed with a breaking line so as to be easily pierced by the dropper 134'.

Accordingly, it is possible to prevent contamination of the reaction space 132a' before the sample stock solution is injected.

In addition, the kit tube 300 of another embodiment includes a kit tube body 310 , a kit moving tube 320 , a sealing membrane 330 , and a tube connection part 340 as shown in FIG. 5 .

The kit tube body 310 has an installation space 312 formed therein.

And the kit moving tube 320 has a reaction space 322 therein, and is located at the other end of the kit tube body 310 .

The sealing membrane 330 is provided in the kit moving tube 320 to seal the reaction space 322 .

In addition, the tube connection part 340 moves the kit moving tube 320 along the other end of the kit tube body 310, and connects it to the outside so that it can be sealed.

Looking at the operating state of the kit tube 300, when the sample stock solution is injected into the reaction space 322, the kit moving tube 320 is moved in the direction of one end into which the droppers 134 and 134' are inserted, and the dropper The ends of (134, 134') are moved to a position where the sealing film can be penetrated.

In other words, before the sample stock solution collection, the kit moving tube 320 is positioned so that the ends of the corresponding droppers 134 and 134' do not touch, and after collecting the sample stock solution, the ends of the corresponding droppers 134 and 134' are closed with a sealing membrane. (330) is moved to a piercing position.

Accordingly, it is possible to prevent contamination of the reaction space 322 before the sample stock solution is injected.

Here, the tube connection part 340 includes an internal connection tube 342 , an external connection tube 344 , and a screw part 346 .

The inner connection tube 342 is integrally formed with the kit moving tube 320 so as to be inserted into the other end of the kit tube body 310 .

And the external connection tube 344 forms a connection space 346 so that the other end of the kit tube body 310 is inserted between the internal connection tube 342 and the outside of the other end of the kit tube body 310. It is formed integrally with the kit moving tube 320 so as to surround it.

The screw portion 346 is provided for screwing the outer circumferential surface of the other end of the kit tube body 310 and the inner circumferential surface of the external connection tube 344 .

Here, the screw portion 346 is wrapped with a Teflon tape 348 to seal between the outer peripheral surface of the other end of the kit tube body 310 and the inner peripheral surface of the external connection tube 344 to prevent the inflow of contaminants from the outside.

Also, as shown in FIG. 6 , the measurement unit 200 includes a light source unit 210 , a photodiode 220 , and an analysis unit 230 .

The light source unit 210 is provided to irradiate light to the reaction space portions 132a, 132a', 322 of the kit tubes 132, 132', 300.

The light source unit 210 uses a 365 nm wavelength lamp, and transmits the light through the transparent cell 240 .

In addition, the photodiode 220 is provided to receive the colors of the sample stock solution and the substrate reaction solution reacted by the light irradiated from the light source unit 210 to convert the light into electrical energy.

The analysis unit 230 is provided to analyze the sample solution using the electrical energy of the photodiode 220 .

Here, the substrate reaction solution includes a fluorescent substrate and an enzyme, the substrate reaction solution containing the fluorescent substrate cannot emit fluorescence of 460 nm, and the reaction solution with the enzyme can emit fluorescence of 460 nm, so that the photodiode 220 and It can be precisely analyzed through the analysis unit 230 .

100: sample collection unit 200: measurement unit
110: collection unit 120: sample filter unit
130, 130', 300: sampling kit
210: light source 220: photodiode
230: analysis unit 240: cell

Claims (6)

a sampling unit for collecting and sampling a sample; and
and a measuring unit for measuring the sample by checking the reaction state of the sampling formed in the sample collecting unit;
The sample collection unit,
a collecting unit for collecting a sample;
a sample filter unit for filtering the sample collected by the collecting unit to generate a sample stock solution; and
and a sampling kit for mixing and reacting the sample stock solution of the sample filter unit with the substrate reaction solution;
The sampling kit is
a kit tube having a reaction space and an installation space therein;
a dropper located in the installation space of the kit tube, sealing the installation space, separated from the kit tube, and collecting the sample undiluted solution of the sample filter; and
It contains a reaction tube having a substrate reaction solution therein, and being detachably installed in the kit tube.
Sample measuring system, characterized in that the sample stock solution collected with the dropper and the substrate reaction solution of the reaction tube are injected into the reaction space to react. delete delete a sampling unit for collecting and sampling a sample; and
and a measuring unit for measuring the sample by checking the reaction state of the sampling formed in the sample collecting unit;
The sample collection unit,
a collecting unit for collecting a sample;
a sample filter unit for filtering the sample collected by the collecting unit to generate a sample stock solution; and
and a sampling kit for mixing and reacting the sample stock solution of the sample filter unit with the substrate reaction solution;
The sampling kit is
a kit tube having a reaction space and an installation space therein;
a dropper located in the installation space of the kit tube, sealing the installation space, separated from the kit tube, and collecting the sample solution from the sample filter; and
It includes; a substrate reaction solution located in the reaction space of the kit tube;
Sample measuring system, characterized in that by injecting the sample stock solution collected with the dropper into the reaction space to react with the substrate reaction solution. According to claim 1 or 4, The kit tube,
Kit tube body having an installation space therein;
a kit moving tube having a reaction space inside and positioned at the other end of the kit tube body;
a sealing membrane provided in the kit moving tube to seal the reaction space; and
It includes; a tube connecting part for moving the kit moving tube along the other end of the kit tube body so that it can be sealed with the outside;
When the sample stock solution is injected into the reaction space, the kit moving tube is moved in the direction of one end into which the dropper is inserted, and the end of the dropper is moved to a position where the sealing membrane can be penetrated. According to claim 1 or 4, wherein the measuring unit,
a light source for irradiating light into the reaction space of the kit tube;
a photodiode for receiving the colors of the sample stock solution and the substrate reaction solution reacted by the light irradiated from the light source and converting it into electrical energy; and
and an analysis unit for analyzing the sample stock solution using the electrical energy of the photodiode.

Images