KR102409286B1 - Disposable small-packaged laboratory solution - Google Patents

Abstract

Challenge: To provide a small package of easy-to-use experimental solution cans that can solve the inconvenience of selling only in bulk and reducing the required amount and causing precipitation due to contact with ambient temperature, humidity and air every time it is used. thing.
Solution: The present invention relates to an easy-to-use experimental solution canned small-packed product, and more particularly, to an easy-to-use small-packed experimental solution canned product in which only one can of a buffer solution can be opened and used as needed.

Description

{Disposable small-packaged laboratory solution}

The present invention relates to an easy-to-use, single-use, small-packed, disposable, experimental solution, and more particularly, to an easy-to-use, single-use, small-packed, experimental solution in which a buffer solution can be opened and used only as much as needed.

A buffer solution generally refers to a solution in which the hydrogen ion concentration (pH) does not change significantly due to the common ion effect even when an acid or base is added. A commonly used buffer solution is acetic acid (CH ₃ COOH) and sodium acetate solution. In aqueous solution, sodium acetate is completely dissociated into sodium ions (Na ⁺ ) and acetate ions (CH ₃ COO ⁻ ). The concentration of hydrogen ions in a buffer solution depends on the relative amounts of acetic acid and acetate ions (or sodium acetate) in the solution, which is called the buffer ratio. When an acid or base is added, the concentrations of acetic acid and acetate ions change, but if the concentration of the added substance is small compared to the concentration of each buffer component, the changed hydrogen ion concentration (pH) after adding the acid or base is almost the same as the original concentration. same. Since most chemical reactions are accelerated by acids and bases, in many chemical and biological experiments, a specific value of acidity or alkalinity in a solution must be kept constant by using a buffer solution.

Buffer solutions are used in swimming pools, cell culture, blood, medical buffer solutions, hemoglobin, physiological saline, and semi-chemical pulps. In addition, all cell culture media contain those that act as buffers to reduce changes in pH caused by metabolites. Here, Tris and HEPES are mainly used as buffers. Serum, a medium additive, also serves as a buffer.

The human blood maintains a pH of 7.3 to 7.4 even if it eats foods with high acidity. Phosphoric acid (H ₃ PO ₄ ) also contributes to some extent. Carbonic acid and hydrogen carbonate ion, which is a conjugate base, constantly regulates the human blood pH, and is used when the blood loses its buffering function due to excessive exercise or excessive meat eating. It is used to prevent poisoning, emphysema, muscle stiffness, and convulsions and to restore it to its original state. The oxygen affinity of hemoglobin is affected by 2,3-BPG (2,3-Bisphosphoglyceric acid) and H ⁺ concentrations. When carbon dioxide (CO ₂ ) dissolves in a body fluid and the body fluid becomes acidic, the oxygen affinity of hemoglobin decreases. The blood performs a buffering action that prevents this action.

In addition, the buffer solution is also used for physiological saline and injection solution, which can be easily seen in real life. In addition, various chemicals are used to produce pulp using hardwood, and the process is performed in a neutral buffer solution. The purpose of the buffer solution at this time is to facilitate the proliferation of cells or enzyme action.
Japanese Patent Application Laid-Open No. 2011-153990 (published on Aug. 11, 2011) discloses that a plurality of reagents are used in the analysis of an automatic analysis device that automatically analyzes biological samples such as blood or urine. Conventionally, it is revealed that a tank-shaped or bottle-shaped reagent container molded from a synthetic resin or the like is known.

Buffer solutions currently on the market are generally sold in bulk in 1L or 500ml plastic bottles. Since it is divided and used dozens of times after opening, it is affected by the surrounding temperature and humidity every time it is used, and there is inconvenience in that it is in frequent contact with air to cause precipitation or contamination.

The present invention can solve the problems of being sold only in large quantities and using the required amount, being affected by the surrounding temperature and humidity every time it is used, and causing sedimentation or contamination due to frequent contact with air, An object of the present invention is to provide an easy-to-use, single-use, small-packaged laboratory solution.

In addition, an object of the present invention is to provide an easy-to-use, disposable small-packaged experimental solution that can be used immediately without the use of other experimental instruments for dilution or other mixing processes.

The present inventors have been searching for various packaging methods through long research to solve the inconvenience and problems of the prior art. It has been found that management can be expected to be very simple.

Since the disposable small packaging laboratory solution of the present invention is opened and used only as much as necessary and is not reused, the problem of large-capacity laboratory solutions, that is, each time it is repeatedly opened and used, it comes into contact with the surrounding temperature, humidity and air, resulting in precipitation or contamination. The discomfort is eliminated, and since it can be used immediately after opening without any other procedures such as dilution, it can be used in a fresh state.

The present invention relates to an easy-to-use, disposable, small-packaged experimental solution in which the experimental solution is placed in a container made of a metal material such as aluminum or a synthetic resin material and sealed.

In addition, the present invention is characterized in that the container is sealed.

In addition, in the present invention, the experimental solution is characterized in that it is a buffer solution, a coloring solution or a dyeing solution. The coloring solution or dyeing solution refers to a solution containing a coloring reagent that exhibits fluorescence according to a reaction in a test tube.

In addition, the experimental solution is characterized in that it is a solution in a concentrated or non-concentrated state.

The present invention relates to a small packaging of an easy-to-use experimental solution can, characterized in that the laboratory solution is put in a container and sealed and packaged.

The material of the container is not particularly limited as long as it does not affect the stability of the experimental solution stored therein, but is preferably a metal material or a synthetic resin material. The shape of the container is generally a cylindrical shape, but it can be applied in various forms such as semi-cylindrical and rectangular cylinders. Metal or synthetic resin is a packaging material that can minimize the leakage of the buffer solution during discharge while maintaining the quality of the experimental solution as compared to the existing experimental solution packaging container, and improve the inconvenience of use. A metal container such as aluminum or a synthetic resin container such as hard plastic has advantages in that it is inexpensive, light, easy to transport and store, and has a long storage period of the experimental solution.

In addition, in the present invention, it is characterized in that the experimental solution is placed in a container made of metal or synthetic resin and sealed. At this time, it is characterized in that the lid is formed on the upper part of the container and sealed. The upper lid is characterized in that it is made of metal or plastic material. In case of aluminum or plastic material, it is effective in sealing and has the advantage of being easy to open. The shape of the lid is not particularly limited as long as it is convenient to use and can maintain a sealed state before use.

In addition, the experimental solution is a reagent such as acid or base (formaldehyde aqueous solution, phosphoric acid solution, sodium hydroxide solution), etc., and there is no particular limitation on the type, and is preferably a buffer solution, a storage solution, a color developing solution or a dyeing solution. do.

As described above, the packaging of the present invention does not require other processes such as complicated dilution because the experimental solution is contained in a fixed amount by one can. Therefore, the same result can be obtained no matter who uses the experimental solution anytime, anywhere, and it is possible to conduct the experiment more easily. In addition, since one can is quantified, excessive consumption is avoided, oxidation is prevented due to contact with air, etc., and storage and management of the experimental solution is very simple and convenient to carry.

The disposable small packaging experimental solution of the present invention does not require a dilution process in the case of a 1X stock solution that can be used immediately, and in the case of a concentrated solution such as 2X or 3X, the same amount of water as the can capacity, or twice It can be easily applied to a desired experiment by quantifying and mixing only water like water.

The capacity of the disposable small package experimental solution of the present invention is not particularly limited, and it can be preferably prepared in a capacity of 200 to 1000 mL, and 200 mL, 250 mL, 300 mL in consideration of the amount of buffer solution used in a normal laboratory. , 500 mL, 750 mL, 1000 mL, etc. can be prepared in various capacities.

In the present invention, the experimental solution is packaged in small packages and opened and used only as much as necessary, so the inconvenience of precipitation or contamination due to contact with ambient temperature, humidity and air whenever it is sold and used in large quantities is eliminated, and when necessary Each can 1, 2, or 3 cans are opened and used immediately, so fresh experimental solutions can be used.

In addition, the storage and management of the experimental solution is very simple, and the effect of portability is shown.

In addition, since the small can of the experimental solution of the present invention is quantified by 1 can, excessive consumption is not avoided, and in the case of the stock solution, it can be used immediately without other procedures such as dilution, and even in a concentrated solution, the same amount or 2 You can dilute it conveniently by measuring only water, such as pears and three-folds.

1 is a view of an easy-to-use experimental solution can small package according to the present invention.

Hereinafter, the configuration of the present invention will be described in more detail through specific embodiments. However, the following examples are provided to illustrate the present invention, and it is apparent to those of ordinary skill in the art that the present invention is not limited to the scope of the present invention.

Example 1: Preparation of buffer solution

1) A buffer solution of 1X PBS, 0.05% Tween-20, pH 7.4 was prepared.

2) A buffer solution containing Tris 24.7 mM, KCI 2.7 mM, NaCl 137 mM, and Tween-20 0.05% was prepared.

3) A buffer solution containing 89 mM Tris-Borate and 2 mM EDTA pH 8.0 was prepared.

4) A buffer solution containing 40 mM Tris-Acetate and 1 mM EDTA was prepared.

5) A buffer solution containing 25 mM Tris and 192 mM Glyclne was prepared.

6) A buffer solution containing 25 mM Tris, 192 mM Glyclne, and 0.1% SDS was prepared.

Example 2: Small Cans of Buffer Solution

The buffer solution was placed in a container made of a cylindrical synthetic resin material with a capacity of 100 mL, and the upper end was sealed with an aluminum material, and the lid was packaged with a one-touch can lid.

The buffer solution packaged in cans can be used for experiments immediately without any other procedures, and since the aluminum material upper one-touch lid is opened and used immediately, contact with ambient temperature, humidity and air is reduced, and precipitation or contamination occurs. The discomfort is eliminated, and the experimental solution in a fresh state can be used.

Claims (6)

Made of one or more materials of metal or synthetic resin, the experimental solution is put inside a 100-1000 mL capacity with a lid on the top and sealed, and the entire content is used at one time. disposable cans.
The method according to claim 1,
The metal is aluminum, a disposable can in which the experimental solution is packaged.
delete The method according to claim 1,
The lid is a one-touch lid, a disposable can in which the experimental solution is packaged.
The method according to claim 1,
The experimental solution is a buffer solution, a preservative solution, a color developing solution or a dyeing solution, a disposable can in which the experimental solution is packaged. delete

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