KR100231299B1 - Mixer for hplc - Google Patents

Abstract

The present invention relates to a mixer for a high pressure liquid chromatography, a magnetic body 16, a solvent integrally fixed to the upper surface of the fan 14 mounted on the output shaft to be rotated by the drive motor 15 of the cooling fan for chromatography. The solvent inlet 21 discharged from the pump and the outlet 22 through which the solvent is discharged to the column are formed, and the edge data 17 is freely rotatable by the rotation of the magnetic material 16 to uniformly mix the introduced solvent. A mixer body 20 having a hollow portion 23 having an open upper portion and a sealed portion 25 of the hollow portion 23 is hermetically sealed to sense pressure of a solvent introduced into the hollow portion 23. By including the means for holding the pressure sensor 29 to be reduced, the number of motors used to reduce the manufacturing cost and the pressure sensor and the fan is integrally configured to make the volume of the chromatography more compact .

Description

Mixers for High Pressure Liquid Chromatography

The present invention relates to high pressure liquid chromatography (HPLC), which separates and detects each component from a mixture of unknown components. The present invention relates to a mixer having a compact structure in which a pressure sensing sensor is integrated.

In general, in analyzing the components contained in a mixture, HPLC, which is used to separate, identify and quantify one or more components in the mixture, as shown in FIG. 1, includes a pump (1), a mixer (2) and an injector. (3), the column 4, the detector 5, and although not shown in the drawing, separate data processing apparatuses are included. The pump 1 delivers at least one solvent at high pressure as a mobile phase to extract the solute of the mixture sample to be analyzed, and in the mixer 2, the solvents are sent to an edge taper rotated by a motor. Mix sufficiently and discharge to the column (4). The sample to be analyzed in the solvent sent from the mixer 2 is injected through the injector 3 using an injection means such as a syringe. The column (4) is filled with the fine powder to combine the material used as the stationary phase (stationary phase) to form a micro-channel to separate the solute of the sample, when the sample is passed through the column solute contained in the sample for the stationary phase Due to the difference in their affinity, adsorption, etc., the time passed through the column is different, so that the solute is separated. When the solutes contained in the sample are separated and eluted in this way, the eluate is scanned while the eluate passes through the flow cell in the detector 5 to monitor the change in the output voltage with respect to the change in the intensity of the light. The column retention time and peak of each component are expressed, and the characteristics and the amounts contained in the sample are checked by comparing those characteristics with the component data inputted in advance. In FIG. 1, reference numeral 7 denotes a valve that alternately supplies each solvent to the pump 1 when two or more solvents are used.

In the component analysis by HPLC as described above, it is important that the solvent flows into the column 4 at a constant flow rate and pressure, because the change in the supply flow rate and the pressure of the solvent causes the solvent to pass through the column 4. As a result of the change in time, the occurrence time and height of the peak for the component detected by the detector 5 appear differently, and this data is different from the reference data of the component obtained by testing under the same conditions. This is because confirmation is impossible.

In order to solve this problem, conventionally, two plungers 7 and 7 'having opposite strokes are used so that solvent is discharged from the pump at a constant flow rate and pressure without pulsation occurring, and discharged from the pump 1 The solvent is temporarily received in the mixer 2 and then discharged to prevent the pressure change from occurring in the solvent supplied to the column, and the pressure of the solvent supplied to the column 4 by using a separate pressure sensor 8. Check the normal operation of HPLC by measuring. Also, in general, HPLC has a circuit board for controlling a pump driving motor, a mixer driving motor, and other elements, which are not shown in the drawings, so that a large amount of heat is generated during operation, thereby driving a fan to cool the inside of the device. The heat generated inside the equipment should be dissipated to the outside. In this case, conventionally, the fan driving motor and the mixer driving motor are separately provided, thereby increasing the volume of HPLC and increasing the manufacturing cost.

The present invention has been made to solve the problems of the conventional HPLC described above, by improving the structure by sharing the drive motor of the mixer and the fan, and integrating the pressure sensor to make the HPLC more compact and the number of motors used It is an object of the present invention to provide a mixer for HPLC having a structure in which a manufacturing cost is reduced.

1 is a configuration diagram schematically showing the configuration of a conventional chromatography.

Figure 2 is a schematic diagram of a chromatograph showing the state of use of a mixer in which the fan and the solvent pressure sensor integrated in accordance with the present invention.

3 is an exploded perspective view showing the body of the mixer shown in FIG.

4 is a longitudinal sectional view of the mixer shown in FIG.

* Explanation of symbols for main parts of the drawings

DESCRIPTION OF SYMBOLS 10 Mixer 13: Housing 14: Fan 15: Motor 16: Magnetic body 17: Edge data 20: Body 23: Hollow part 24, 24 ', 24 ": Step 26: Plug 27: Flange 28: Hole 29: Pressure sensor 31 : volt

In order to achieve the above object, the HPLC mixer according to the present invention is a fan drive motor provided in a fan housing fixed to the case bottom of the HPLC, a fan mounted on the output shaft, and a magnetic body integrally fixed to the top of the fan In addition, a solvent inlet discharged from the solvent pump and an outlet through which the solvent is discharged to the column are formed, and the edge data of the magnetic material is freely rotatably provided to uniformly mix the solvent introduced therein, and a hollow portion having an upper opening is formed, and the upper surface of the fan housing is formed. A mixer body fixed to the plug, a hole for holding a pressure sensing means to sense the pressure of the solvent contained in the hollow portion, and a plug disposed at a step formed in the opened portion, and fixed by pressing the plug to open the mixer body. A plug having a through hole formed therein and fastened with a screw formed at an inner upper portion of the opened portion to seal the portion; It is configured to include a fixing means.

Hereinafter, with reference to the accompanying drawings showing an embodiment of the present invention will be described in detail the present invention.

Fig. 2 schematically shows a state in which a fan 10 is integrated with HPLC according to the present invention in HPLC, in which the mixer 10 is fixed to the case bottom of the HPLCD by conventional fastening means. The plurality of slots are formed for ventilation so that the heat of the inside is dissipated to the outside by the fan.

3 and 4, the mixer 10 is equipped with a housing 13 in which a fan and a motor are integrated and mounted on the bottom of the case of the HPLCD, and the fan 14 is fixed to the output shaft of the motor 15. have.

According to the present invention, the magnetic body 16 is integrally fixed to the upper surface of the fan 14 by an adhesive so that the magnetic body 16 also rotates together when the fan 14 is rotated by the motor 15. Therefore, when the motor 15 is driven, a detailed description will be described later. However, the fan 14 is also driven while rotating the edge data 17, thereby discharging heat generated when the HPLC is operated to the outside to cool the inside. Compared to the use of separate motors for the application of edge and edge data, the motor is reduced by one, which reduces component cost and makes the HPLC more compact.

The base plate 19 on which the mixer 10 is mounted is fixed to the upper plate 18 of the fan housing 13. The mixer 10 includes a body 20 mounted to the base plate 19, and the body 20 has an inlet 21 through which the solvent discharged from the pump shown in FIG. 2 is introduced and an outlet on the opposite side thereof. The cylindrical hollow part 23 in which the 22 was formed is formed. The hollow portion 23 is provided with the edge data 17 of the magnetic material is rotated by the magnetic material 16 that rotates together when the fan 14 is rotated so that the solvent introduced from the pump is uniformly mixed.

According to the present invention, the upper part of the hollow part 23 is opened so that three steps 24, 24 ', 24 "are formed so that the diameter thereof increases toward the upper part, and the open part 25 of the hollow part 23 is formed. Is provided with a plug 26, the bottom surface of the plug 26 being disposed in the first step 24, and the flange 27 protruding in an annular radially outward direction is arranged in the second step 24 ′. In addition, the plug 26 has a hole 28 adjacent to the bottom surface thereof, and a pressure sensor 29 is inserted into and fixed to the plug 26 and integrated with the mixer, thereby making it more compact than the conventional one. ) Detects the pressure of the solvent introduced into the hollow part 23, but it is not shown in the figure, but checks the accuracy of performing an analysis operation by HPLC.

A screw is formed at an inner upper end of the opened portion 25 of the hollow portion of the body 20, and a bolt 31 having a through hole 30 is screwed thereto. Therefore, as the bolt 31 is fastened and descends, the plug 26 is pressed, so that the step 32 formed between the lower end of the bolt and the through hole 30 and the flange 27 of the plug 26 are hermetically sealed. The meshed upper portion of the hollow portion 23 of the body 20 is completely sealed. The upper surface of the plug 26 is formed in the hole 28 of the plug 26 to protrude ribs 33 protruding in close contact with the inner surface of the through hole 30 of the bolt when the bolt 31 is fastened. It protects the pressure sensor 29 to be mounted and ensures that the plug is firmly held when the bolt is tightened.

The operation of the mixer 10 according to the present invention will be described.

When the HPLC is operated, the solvent pressurized by the pump flows into the hollow portion 23 through the inlet 21 formed at the top of the hollow portion 23 of the mixer 10. At this time, as the motor 15 is driven to rotate the fan 14, the magnetic body 16 integrally fixed to the upper surface of the fan is also rotated, so that the edge data 17 of the magnetic body provided to the hollow part 23 is rotated. The solvent introduced into the hollow part 23 is mixed uniformly. In general, pulsation occurs because the discharging of solvent from the pump is discontinuous by the suction and discharging stroke of the pump, and the pulsation is minimized by transmitting the solvent at a phase angle of 180 with two plungers. In this way, in order to keep the pressure of the delivery solvent constant due to the pulsation, the solvent discharged from the pump was uniformly mixed in the mixer 10, and then discharged to uniformly discharge the solvent. Check if it is maintained. At this time, the pressure of the solvent in the mixer 10 sensed by the pressure sensor 29 outside the reference value appears mainly in the case of a pressure drop due to leakage caused by the damage of the sealing, and as a result the solvent flowing into the column As the time of solute passing through the column is different, it may be wrongly analyzed as substance and other components. To prevent this, stop the analysis and check the equipment to find the cause of the pressure change. Analyze the data to get accurate analysis results.

According to the present invention, a mixer is provided between a pump and a column for pressurizing the solvent in HPLC to temporarily receive the solvent from the pump so that the mixer is integrated with a fan for cooling the inside of the HPLC so that the fan driving motor is It can be used as an edge data rotating motor to reduce the number of motors, thereby reducing the manufacturing cost, and to check if the pressure of the solvent sent to the column is constant. In comparison, the pressure sensor and the reduced motor occupy as compactly as the space occupied.

Claims (4)

Magnetic body 16 integrally fixed to the upper surface of the fan 14 mounted on the output shaft so as to be rotated by the drive motor 15 of the cooling fan of the high pressure liquid chromatography, the solvent inlet 21 and the column discharged from the solvent pump The outlet 22 through which the solvent is discharged is formed, and the edge data 17 is freely rotatable by the rotation of the magnetic body 16 so as to uniformly mix the solvent introduced therein, and the hollow portion 23 having the upper opening. Means for holding the pressure sensor (29) for sealing the mixer body (20), the open portion (25) of the hollow portion 23 is formed and detects the pressure of the solvent introduced into the hollow portion (23) Mixer for high pressure liquid chromatography comprising a. 2. The holding means according to claim 1, wherein the holding means comprises a plug (26) arranged at a step formed in the opened portion (25) of the hollow portion (23) of the mixer body (20), and the plug (26) being hermetically sealed against the step. And a plug fixing means 31 screwed into the upper portion of the opened portion 25 of the hollow portion 23 so as to be pressurized, and the plug 26 has a hole 28 in the longitudinal direction adjacent the bottom surface thereof. It is formed and the pressure sensor 29 is mounted, characterized in that the mixer for high pressure liquid chromatography. 3. The plug 26 has a flange 27 protruding outward in the radial direction, and the open portion 25 of the body hollow portion 23 has three stepped diameters that are increased upward. 24, 24 ', 24 "are formed, and the bottom of the plug 26 is arranged in the step 24 of the lower end while the flange 27 is arranged in the step above it, so that the fastening means 31 is fastened. A mixer for high pressure liquid chromatography, characterized in that the bottom face of the plug 26 and the flange 27 are hermetically pressurized to a step so that the hollow part 23 is sealed. 4. The lower end of the fixing means 31 has a step 32 formed therein so that the step 32 of the fixing means is plugged when the fixing means is fastened to the open portion 25 of the hollow part. High pressure liquid chromatography mixer characterized in that the pressure is engaged with the step (24 ") of the upper end of the).

Images