KR102118982B1 - Packing system and method of preparative hplc column - Google Patents

Abstract

The present invention relates to a filling system and a filling method of a high performance liquid chromatography column for preparation, and more particularly, to a filling system and a filling method of a high performance liquid chromatography column for preparation that can uniformly fill a bed in the entire column. It is about.
According to the present invention, it is possible to compress the bed without interruption at high pressure by using a servo motor equipped with a reduction gear, and mechanical compression by a moving stopper as well as compression by a fluid through a mobile phase inlet provided in the moving stopper enables column compression. Uniform pressure can be applied to both the top, middle and bottom. Accordingly, since the packing density of the bed in the column can be uniformly maintained over the entire column bed layer, the performance of the high performance liquid chromatography column for preparative can be greatly improved.

Description

PACKING SYSTEM AND METHOD OF PREPARATIVE HPLC COLUMN}

The present invention relates to a filling system and a filling method for a high performance liquid chromatography column for preparation, and more particularly, a filling system and a filling method for a high performance liquid chromatography column for preparative use, which can uniformly fill the bed in the entire column. It is about.

Columns used in liquid chromatography usually include a tubular body surrounding the porous chromatography medium through which the carrier liquid flows, with separation occurring by material collection between the carrier liquid and the solid phase of the porous medium. The porous media is usually enclosed in a column as a packed bed, usually formed by incorporating a suspension of discrete particles known as a slurry that is pumped, poured into or sucked into the column from one end. Incorporating the slurry into the filled bed is obtained by compressing the slurry, so that the slurry is filled into a volume smaller than the volume that would have been occupied if only filled under the influence of gravity to form a precipitated bed. The efficiency of the continuous chromatographic separation is highly dependent on the liquid distribution and collection system at the fluid inlet and outlet of the packed bed and the compression of the packed bed. If the compression of the compression bed is too low, chromatographic separation is carried out on the bed undergoing "tailing". If the compression of the compression bed is too large, chromatographic separation is performed on the bed undergoing "leading". If compression is optimal, separation peaks are formed during use that show neither leading nor trailing and are generally symmetrical. The optimum degree of compression required for the column is determined experimentally for each column size (width or diameter), bed height and bed medium.

Prior to any separation process, the bed must be prepared starting from a slurry of particles that must be introduced into the column. The process of bed formation is referred to as a “filling process”, and a precisely packed bed is an important factor affecting the performance of the column containing the packed bed. The goal of the packing process is to provide a bed compressed by an optimal amount of compression-optimal compression coefficient. The height of the bed when optimally compressed is referred to as the target compressed bed height. The large scale column is preferably prepared by injection through a central slurry nozzle, into the column, and a given volume of slurry has a certain concentration of media particles. As long as a given volume of slurry is injected into the column, it can usually be compressed by moving a movable stopper down the longitudinal axis of the column towards the bottom of the column at a constant rate, such as 1 cm/min. The excess liquid during this process is removed at the column exit by a filter material called a'bed support' with pores that are too small to allow the particles to penetrate. The filling process is completed when the filled bed is compressed to the optimum amount. The filling process would be considered successful if the compressed bed allowed good and robust chromatographic performance quantified in terms of residence time across the bed. However, it is not easy to manufacture such an optimal compression bed. Bed filling has so far been considered a technology rather than a science, and the quality of the final packed bed depends on the skill of the operator controlling the filling of the column. One reason for this is that it is difficult to ensure that the actual slurry concentration supplied in the column is exactly the same as the specific concentration used in the calculation of how much slurry should be fed into the column. Any difference between the actual slurry concentration and the specific slurry concentration will result in an actual bed height different from the target bed height and/or an actual amount of compression of the bed different from the specific compression. During filling of the column and subsequent filling, the operator must manually select and adjust filling factors such as flow rate, speed of the moving stopper to accelerate and bed compression, and determine the point when the moving stopper begins to compress the bed. This point is used to calculate how far the moving stopper has to move to get the required amount of compression. Mistakes in the selection of any of these filling factors can lead to poorly performing columns.

On the other hand, when compressing the slurry with a moving stopper, the packing layer is compacted and the resistance is increased, so the packing density of both ends and the middle part of the column is different. For this reason, there is a problem that it is difficult to use because the column performance is different every time it is filled.

In order to uniformly fill the column, the packed bed length may be short, but it cannot be applied when resolution is required. Another method for uniformly filling the column is to charge the slurry by naturally settling with gravity, but the filling time is too long, which is inconvenient, and the column performance varies depending on the environment such as ambient temperature and ventilation.

Most of the columns used in the conventional high pressure is a method of compressing the slurry by driving the moving stopper with the power of a hydraulic cylinder. The hydraulic cylinder is operated by an air-driven oil pump. On the other hand, among the columns used at low pressure, there is also a method of compressing the slurry by moving the moving stopper with a screw. The screw is operated by a servo motor, and this method has the advantage of precisely controlling the movement of the moving stove than the hydraulic cylinder method.

However, in the case of a column filling system that moves a moving stopper by operating a screw with a servo motor, there is a disadvantage in that the input torque is weak by directly driving the screw jack with the servo motor.

The present invention has been devised to solve the above-mentioned problems of the prior art, and the input torque is improved when compressing the bed in the column by installing a reducer on the servo motor driving the moving stopper, and the mobile phase inlet provided on the moving stopper It is intended to provide a filling system for a high performance liquid chromatography column for preparative use, in which the compression by a solvent can occur simultaneously with mechanical compression by a moving stopper by introducing a mobile phase solvent through the column.

In addition, to provide a filling system for preparative high performance liquid chromatography columns that can maintain the packing density of the bed in the column uniformly over the entire bed of the column by applying uniform pressure to both the upper, middle and lower parts of the column. do.

In order to achieve the object of the present invention described above, the present invention is a high-performance liquid chromatography column filling system for preparative, comprising: a slurry tank portion containing a bed medium slurry; A mobile phase tank part containing a mobile phase solvent; A column with a longitudinal axis; A moving stopper movable up and down the longitudinal axis of the column; A pressure sensor for sensing the pressure inside the column; And a control unit connected to the pressure sensor to control the mobile phase tank portion and the moving stopper, wherein the moving stopper is moved by a servo motor equipped with a reducer, and the moving stopper is provided with a mobile phase inlet to move the moving stopper to a column. Provided is a high-performance liquid chromatography column filling system for preparative where the mobile phase solvent flows into the column when the longitudinal axis moves up and down, and the bed is compressed by a moving stopper and a mobile phase solvent.

In addition, the moving stopper is movable while being monitored by a control unit, and the control unit includes software for monitoring and analyzing a signal of the pressure sensor to determine a breakpoint when the moving stocker starts compressing the bed. The breakpoint provides a high performance liquid chromatography column filling system characterized in that it is determined to occur when the bed height and pressure conditions inside the predetermined column are reached.

The system also provides a high performance liquid chromatography column filling system, characterized in that the moving stopper is moved with a screw to compress the bed medium slurry.

In addition, the bed medium slurry is charged to the column; And compressing the slurry by a solvent by injecting a mobile phase solvent into a column through a mobile phase inlet provided in the moving stopper while mechanically compressing the slurry by moving the moving stopper with a screw connected to a servo motor equipped with a reducer. It provides a method for filling a high performance liquid chromatography column for preparative containing.

In addition, the servo motor and the pump for injecting the mobile phase solvent are driven while being monitored by a control unit, and the control unit monitors a signal from a pressure sensor that senses the pressure inside the column, and the height and pressure conditions of the bed inside the predetermined column. It provides a method for filling a high-performance liquid chromatography column for preparative, characterized in that to stop the operation of the pump for injecting the servo motor and the mobile phase solvent.

According to the present invention, it is possible to compress the bed without interruption at high pressure by using a servo motor equipped with a reduction gear, and mechanical compression by a moving stopper as well as compression by a fluid through a mobile phase inlet provided in the moving stopper allows the column to be compressed. Uniform pressure can be applied to both the top, middle and bottom. Accordingly, the packing density of the bed in the column can be uniformly maintained over the entire bed layer, and thus the performance of the high performance liquid chromatography column for preparative can be greatly improved.

1 is a block diagram of a high performance liquid chromatography column filling system for preparation according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the description of the present invention, when it is determined that a detailed description of related known technologies may obscure the subject matter of the present invention, the detailed description will be omitted. In the drawings, parts not related to the description are omitted in order to clearly describe the present invention, and similar reference numerals are given to similar parts throughout the specification, and detailed configuration directions will be described with reference to the drawings. Also, in the specification, when a part “includes” a certain component, this means that other components may be further included instead of excluding other components, unless otherwise stated.

1 is a block diagram of a high performance liquid chromatography column filling system for preparation according to an embodiment of the present invention.

Referring to Figure 1, the high-performance liquid chromatography column filling system 100 according to the present invention is a slurry tank section 110, mobile phase tank section 120, column 130, pressurization unit 140, pressure gauge It includes 150 and the control unit 160.

The slurry tank unit 110 may include a slurry tank 111, a first valve 112 and a slurry inlet 113.

The slurry tank 111 is a space for storing the bed medium slurry, and the bed medium slurry stored in the slurry tank 111 will be charged to the column 130 through the slurry inlet 113 through the first valve 112. Can be.

In the present invention, the type of the bed and the medium is not particularly limited, and any bed and medium used for filling a column for preparative use in the art may be included in the scope of the present invention.

The mobile phase tank unit 120 may include a mobile phase tank 121, a pump 122, a second valve 123, a third valve 124, and a mobile phase inlet 125.

The mobile phase tank 121 is a space in which the mobile phase solvent is stored. In the present invention, the type of the mobile phase solvent is not particularly limited, and any mobile phase solvent used in the preparative column in the art is included in the scope of the present invention. Can be.

The pump 122 is a device that pumps the mobile phase solvent stored in the mobile phase tank 121 according to a signal from the controller 160 and provides power to transfer it into the column, and may be driven by a motor.

The second valve 123 acts as a gateway for transmitting the mobile phase solvent to either the mobile phase inlet 125 or the rinse inlet 171, and the third valve 124 moves the mobile phase solvent to the mobile phase inlet 125 ) Or acts as a gateway for discharging the mobile phase solvent introduced through the rinse inlet 171 to the rinse outlet 172 after all operations are completed.

The mobile phase inlet 125 serves as a passage for transferring the mobile phase solvent carried by the pump 122 into the column 130, and is directly connected to the moving stopper 143 of the pressurizing device 140, and the moving stopper 143 The mobile phase solvent may be injected in the same direction as the pressing direction.

The column 130 is a place where the packed bed medium slurry is compressed by the moving stopper 143, the inner diameter may be 200 mm or more, and the height may be 100 mm to 700 mm.

The pressurizing device 140 may include a servo motor 141, a screw 142, and a moving stopper 143.

The rotational motion of the servomotor 141 is converted to a linear motion through a screw 142 so that the moving stopper 143 can move up and down in the column longitudinal axis. Preferably, in the present invention, the servo motor 141 may not be directly connected to the screw 142, but may be connected through a reduction gear. When the servo motor 141 is directly connected to the screw 142, the input torque may be too low to compress the bed in the column sufficiently, and in the present invention, the servo motor 141 is provided with the servo motor 141. It may be characterized in that the reducer is mounted and connected to the screw.

The pressure sensor 150 is a device capable of measuring the pressure inside the column 130 and may transmit a pressure signal to the control unit 160.

The control unit 160 is connected to the servo motor 141 of the pressurizing unit 140, the pressure sensor 150, and the pump 122 of the mobile phase tank unit 120, within the column transferred from the pressure sensor 150 The operation of the servo motor 141 and the pump 122 may be controlled according to the pressure signal. The control unit 160 may include software that can control the operation of the servo motor 141 and the pump 122 according to the signal of the pressure sensor 150.

In the filling system of the preparative high performance liquid chromatography column according to the present invention, the moving stopper 143 can be moved by a servo motor 141 equipped with a reducer, and the moving stopper 143 has a mobile phase inlet 125 ) Is provided so that when the moving stopper 143 moves up and down in the longitudinal axis of the column 130, the mobile phase solvent flows into the column, so that the bed can be double compressed by the moving stopper and the mobile phase solvent.

In addition, the moving stopper 143 is movable while being monitored by the control unit 160, and the control unit 160 includes the pressure sensor to determine a breakpoint when the moving stopper 143 starts compressing the bed. Includes software for monitoring and analyzing the signal of, and the breakpoint can occur when the bed height and pressure conditions inside the predetermined column are reached.

That is, the bed medium slurry filled in the column 130 is double-compressed by the mobile phase solvent injected through the mobile stopper 143 and the mobile bed inlet 125, and the bed in the column progresses as the bed is compressed. And the pressure in the column increases. At this time, the control unit 160 analyzes the pressure signal transmitted from the height and pressure sensor 150 of the bed in the column, and when the operator reaches the preset bed height and pressure condition, the moving stopper 143 and/or Alternatively, the operation of the pump 122 may be controlled to terminate the filling of the high performance liquid chromatography column for preparative use.

The present invention also comprises the steps of filling the bed medium slurry into a column; And compressing the slurry by a solvent by injecting a mobile phase solvent into a column through a mobile phase inlet provided in the moving stopper while mechanically compressing the slurry by moving the moving stopper with a screw connected to a servo motor equipped with a reducer. Disclosed is a method of filling a high performance liquid chromatography column for preparative use.

The servo motor and the pump for injecting the mobile phase solvent are driven while being monitored by a control unit, and the control unit monitors a signal from a pressure sensor that senses the pressure inside the column to adjust the height and pressure conditions of the bed inside the preset column. Upon reaching, it is possible to stop driving of the servo motor and the pump injecting the mobile phase solvent.

The preferred embodiments of the present invention have been described above in detail with reference to the drawings. The description of the present invention is for illustration only, and those skilled in the art to which the present invention pertains will understand that it is possible to easily modify to other specific forms without changing the technical spirit or essential features of the present invention.

Therefore, the scope of the present invention is indicated by the claims, which will be described later, rather than by the detailed description above, and all modified or modified forms derived from the meaning, scope, and equivalent concepts of the claims are included in the scope of the present invention. It should be interpreted as.

100: high performance liquid chromatography filling system for preparative use
110: slurry tank 111: slurry tank
112: first valve 113: slurry inlet
120: mobile phase tank section 121: mobile phase tank
122: pump 123: second valve
124: third valve 125: mobile phase inlet
126: mobile phase outlet 130: column
140: pressing device 141: servo motor
142: screw 143: moving stopper
150: pressure sensor 160: control unit
171: rinse inlet 172: rinse outlet

Claims (5)

In the filling system of a high performance liquid chromatography column for preparative,
A slurry tank part containing the bed medium slurry; A mobile phase tank part containing a mobile phase solvent; A column with a longitudinal axis; A moving stopper movable up and down the longitudinal axis of the column; A pressure sensor for sensing the pressure inside the column; And a control unit connected to the pressure sensor to control the mobile phase tank unit and the moving stopper,
The moving stopper is moved by a servo motor equipped with a reducer, and the moving stopper is provided with a mobile phase inlet so that when the moving stopper moves up and down in the longitudinal axis of the column, the mobile phase solvent flows into the column and the bed stops moving. A high-performance liquid chromatography column filling system that is double-compressed with a mobile phase solvent.
The moving stopper is movable while being monitored by the control unit,
The control unit includes software for monitoring and analyzing a signal of the pressure sensor to determine a breakpoint when the moving stopper starts compressing the bed,
The reducer mounted on the servo motor is connected to the screw,
The screw moves the moving stopper,
The breakpoint is a filling system for a high performance liquid chromatography column for preparative use, characterized in that it is determined to occur when the height and pressure conditions of the bed inside the predetermined column are reached.
delete According to claim 1,
The system is a filling system of a high performance liquid chromatography column for preparative use, characterized in that the moving stopper is moved by a screw to compress the bed medium slurry.
Filling the bed media slurry into a column; And
By moving the moving stopper with a screw connected to a servomotor equipped with a reduction gear, while mechanically compressing the slurry, the mobile phase solvent is injected into the column through the mobile phase inlet provided in the moving stopper to compress the slurry in double by a solvent. A method of filling a high performance liquid chromatography column for preparation comprising a step,
The servo motor and the pump for injecting the mobile phase solvent are driven while being monitored by a control unit,
The control unit monitors the signal of the pressure sensor that senses the pressure inside the column, and stops driving the pump that injects the servomotor and the mobile phase solvent when the predetermined height and pressure condition of the bed inside the column is reached. Method of filling a high performance liquid chromatography column for preparative. delete

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