KR20180004416A - A subminiature pump development for post column reaction system - Google Patents

Abstract

The present invention relates to a small pump of a post column reaction system which reduces load on a piston cell, improves durability and suction force by not using a cam and a spring, and prevents cost caused by replacing a spring and a cam after long use by changing a way of driving a piston of a conventional pump, which is used when injecting a reaction reagent to analyze amino acid, by using a spring and a cam into a linear way using a motor shaft. The present invention includes: a cylinder (100) which injects a reaction reagent by a piston operation and comprises an inlet (110) where the reaction reagent is injected by the reverse motion of the piston and an outlet (120) where the reaction reagent flowing in by the pressurization of the piston is injected; a piston (200) which injects a reaction reagent by sliding in the cylinder (100); a motor (300) which is connected to one side of the piston and slides the piston in the inside of the cylinder; and a bearing (400) which connects a motor shaft (310) of the motor and the piston.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a sub-

The present invention relates to a small-sized pump of a post-column reaction system, and more particularly, to a method of operating a piston of a conventional pump used for injecting a reaction reagent for analyzing amino acids using a spring and a cam, , It is possible to reduce the load on the piston cell, improve the durability of the piston due to the absence of the cam and the spring, improve the suction force, and save the cost of replacing the spring and cam due to long- will be.

An amino acid refers to an organic compound composed of a basic amino group (-NH 2), an acidic carboxyl group (-COOH), and an organic group R group (or side chain). Depending on these three functional groups, a unique structure of each amino acid is created.

The main amino acids constituting the protein are 22 kinds, which can be classified into 17 kinds of primary amino acids and 5 kinds of secondary amino acids. The main amino acids constituting these proteins include glycine, alanine, valine, leucine, isoleucine, threonine, serine, cysteine, leucine, methionine, aspartic acid, asparagine, glutamic acid, selenocysteine, lysine, arginine, histidine, phenylalanine, Tyrosine, tryptophan, proline and oxyproline.

In the method for analyzing such amino acids, there is a method for use in an automatic amino acid analyzer (AAA). Such an automatic amino acid analyzer is a method for pretreating a sample containing each amino acid, . That is, the preprocessing process of the sample is essentially included.

The compact pump of the post-column reaction system is a device for pretreatment to analyze amino acids, carbaryl, and residual pesticides using HPLC (HIGH PERFORMANCE LIQUID CHROMATOGRAPHY).

A conventional pump used for injecting a reaction reagent for analyzing the amino acid is a spring 30 for restoring the cam 20 when the piston 10 is pressed.

At this time, when the reaction reagent is injected, the abrasion phenomenon occurs due to the friction between the cam and the piston, so that a large difference in pressure occurs, resulting in a lower reproducibility of the analysis data and an increased error.

In addition, there is a problem that the cam can not press the piston due to the restoring force of the restoring spring.

Korean Patent Publication No. 10-2015-0051443

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art. It is an object of the present invention to provide a pump that uses a spring and a cam to drive a piston of a conventional pump used for injecting a reaction reagent for analyzing amino acids. By changing to the linear system, it is possible to reduce the load on the piston cell, improve the durability as a result of not using the cams and springs, improve the suction force, and save the cost of replacing the spring and cam due to long- .

In addition, the present invention provides a small-sized pump of a column reaction system after minimizing a variation in pressure generated when a reaction reagent is injected, thereby improving reproducibility of analytical data and minimizing an error range of analysis.

According to an aspect of the present invention, there is provided a small-sized pump of a post-column reaction system,

 The cylinder 100 is composed of an inlet 110 through which the reaction reagent flows by the backward movement of the piston and an outlet 120 through which the reaction reagent introduced by the pressure of the piston is injected, Wow;

A piston (200) sliding inside the cylinder (100) and injecting a reaction reagent;

A motor 300 connected to one side of the piston to slide the piston inside the cylinder;

And a bearing (400) connecting the piston of the motor and the motor shaft (310) of the motor.

At this time, the piston 200 slides on the inside of the cylinder 100 by the operation of the motor and injects the reaction reagent. The piston 200 has an inner piston 210, one end of which is inserted into the piston and the airtight packing 211 is provided, and;

And an outer piston 220 connected to the motor shaft of the motor and slidable by the bearing.

The motor 300 is connected to one side of the piston so as to slide the piston inside the cylinder so as to introduce and discharge the reaction reagent. The screw 300 is formed on the outer periphery of the piston 300. By driving the motor, And a motor shaft (310) which reciprocates the piston by moving back and forth simultaneously with rotation.

The bearing 400 connects the motor shaft of the piston to the motor shaft. The motor shaft is coupled to the outer side, the outer piston is coupled to the inner side, and the rotational force of the motor shaft is transmitted to the piston. .

According to the present invention, the small-sized pump of the post-column reaction system of the present invention is a linear pump system in which a piston of a conventional pump used for injecting a reaction reagent for analyzing amino acids is driven by a spring and a cam, It is possible to reduce the load on the piston cell, to improve the durability and the suction force as a result of not using the cam and the spring, and to avoid the expense of replacing the spring and cam due to long use.

In addition, the deviation of the pressure generated when the reaction reagent is injected is minimized, thereby improving the reproducibility of the analysis data and reducing the error, thereby reducing the error range of the analysis.

1 is a view showing a conventional amino acid analysis pump,
2 is a view showing an amino acid analysis pump according to the present invention,
FIGS. 3 and 4 are diagrams illustrating an example of the operation of the amino acid analysis pump,

The terms and words used in the present specification and claims should not be construed to be limited to ordinary or dictionary meanings, but the inventor may appropriately define the concept of the term to describe its invention in the best way Can be interpreted as a meaning and a concept consistent with the technical idea of the present invention.

It should be noted that the embodiments described in the present specification and the configurations shown in the drawings are merely preferred embodiments of the present invention and do not represent all the technical ideas of the present invention, It should be understood that various equivalents and modifications may be present.

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

As shown in FIGS. 2 to 4, the present invention includes a piston 200 slidably inserted in a cylinder 100 to inject a reaction reagent therein; A motor 300 connected to one side of the piston to slide the piston inside the cylinder; And a bearing 400 that connects the piston of the motor and the motor shaft 310 of the motor.

The cylinder 100 injects the reaction reagent by the operation of the piston and includes an inlet 110 through which the reaction reagent flows by the backward movement of the piston; And an outlet 120 through which the reaction reagent introduced by the pressure of the piston is injected.

The piston 200 slides on the inside of the cylinder 100 by the operation of the motor and injects the reaction reagent. The piston 200 includes an inner piston 210 having one end inserted into the piston and having a gas tight packing 211, ; And an outer piston 220 connected to the motor shaft of the motor by a bearing.

The piston 200 is connected to a bearing that changes the rotational force of the motor shaft to a linear motion and performs a linear motion so that the reaction reagent flows back into the cylinder through the inlet port while advancing the reaction reagent, .

At this time, the piston is connected to the motor shaft by the bearing, so that it is not rotated but is slid to the left and right.

The motor 300 is connected to one side of the piston to allow the piston to slide on the inside of the cylinder to allow the reaction reagent to flow in and out. The screw 311 is formed on the outer periphery of the piston. And a motor shaft 310 which reciprocates the piston by moving forward and backward.

According to the above, the motor 300 rotates a motor shaft having a screw on its outer periphery to slide the piston coupled to the motor shaft with the bearing, thereby allowing the reaction reagent to flow into and out of the cylinder.

The bearing 400 connects the motor shaft of the piston with the motor shaft. The motor shaft is coupled to the outer side of the motor shaft, and the outer piston is coupled to the inner side of the motor shaft to transmit the rotational force of the motor shaft to the piston. .

100: cylinder 110: inlet
120: Outlet
200: piston 210: inner piston
220: outer piston
300: motor 310: motor shaft
311: Screw
400: Bearings

Claims (4)

The cylinder 100 is composed of an inlet 110 through which the reaction reagent flows by the backward movement of the piston and an outlet 120 through which the reaction reagent introduced by the pressure of the piston is injected, Wow;
A piston (200) sliding inside the cylinder (100) and injecting a reaction reagent;
A motor 300 connected to one side of the piston to slide the piston inside the cylinder;
And a bearing (400) connecting the piston and the motor shaft (310) of the motor.
The method according to claim 1,
The piston 200 slides on the inside of the cylinder 100 by the operation of the motor and injects the reaction reagent. The piston 200 includes an inner piston 210 having one end inserted into the piston and having a gas tight packing 211, ;
And an outer piston (220) slidingly connected to the motor shaft of the motor by a bearing.
The method according to claim 1,
The motor 300 is connected to one side of the piston to allow the piston to slide on the inside of the cylinder to allow the reaction reagent to flow in and out. The screw 311 is formed on the outer periphery of the piston. And a motor shaft (310) for moving the piston back and forth by forward and backward movement.
The method according to claim 1,
The bearing 400 connects the motor shaft of the piston to the motor shaft. The motor shaft is coupled to the outer side of the motor shaft. The outer piston is coupled to the inner side of the motor shaft to transmit the rotational force of the motor shaft to the piston. ≪ / RTI > wherein the post-column reaction system comprises a pump.

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