JPH0677005B2 - Preparative chromatograph - Google Patents

Description

TECHNICAL FIELD The present invention relates to a preparative chromatographic apparatus for separating a target component from a sample by applying chromatography.

(B) Conventional technology A preparative chromatographic apparatus is used to separate a sample into respective components or to separate coexisting impurities to purify the main component. FIG. 3 shows an example of a liquid preparative chromatographic apparatus. 22 is a column packed with the stationary phase, and the mobile phase liquid flows from the left side to the right side of the paper of FIG.

The mobile phase liquid flowing out from the column 22 flows into the detector 25. As the detector 25, an absorption photometric detector, a differential refraction detector, a fluorescence detector, or the like is used. Absorbance of mobile phase liquid,
Physical properties such as refractive index and fluorescence intensity are detected.

The output signal of the detector 25 is sent to the signal processing circuit unit 21.
In the signal processing circuit unit 21, depending on whether or not a peak is detected in the detector output signal within a predetermined time range after the sample is injected on the inflow side of the column (see FIG. 4).
Determine whether the target component is flowing out of the column 22,
The control signal is output to the motor / nozzle control unit 26. Alternatively, it may be determined whether or not the target component is flowing out from the column 22 based on only the time range.

The motor / nozzle control unit 26 has a function of separating the mobile phase liquid containing the target component into each container (Vial). For example, the nozzle 26a is fixed, and the container V of the target component is driven by a motor to be positioned immediately below the nozzle 26a. Further, the motor / nozzle controller 26 discharges the mobile phase liquid to the drain when the mobile phase liquid does not contain any target component.

(C) Problem to be Solved by the Invention In the above-described conventional preparative chromatographic apparatus, it is possible to detect whether or not the target component flows out from the column by using only two predetermined time ranges, that is, a retention time and a peak. They rely on information. However, after several preparative operations, the separation state in the column changed, the order of the peaks and the appearance time changed, and the target component sometimes did not enter the set Vial.

The present invention has been made in view of the above, and an object thereof is to provide a preparative chromatographic apparatus capable of reliably separating a target component.

(D) Means for Solving the Problems In order to solve the above problems, the preparative chromatographic apparatus of the present invention has the configurations listed in the following items i to viii.

i: Column and ii: Mobile phase fluid flowing out of this column
Iii: target component determination means for determining whether or not the preparative target component is flowing out from the output signal of the first physical property detection means, and iii: : A separation means for separating the outflowing mobile phase fluid based on the determination result of the target component determination means, v: the mobile phase fluid flowing out from the column is the first physical property detection means Of the mobile phase fluid before flowing into the first
Second physical property amount detecting means for detecting a second physical property amount different from the physical property amount of vi, and vi: the mobile phase fluid detects the second physical property amount by detecting an output signal of the second physical property amount detecting means. Delay means for delaying the time from the means to the first physical property detecting means, vii: the second physical property delayed by this delaying means, and the first physical property detecting means A physical property ratio calculating means for calculating a ratio of the first physical property, viii: the target component determining means also uses the physical property ratio obtained by the physical property ratio calculating means, It is characterized by determining whether or not the component is flowing out.

(E) action different physical properties of the specific, for example, absorbance at a wavelength lambda ₁ alpha ₁
The ratio n ₁ / n ₂ between the refractive index n ₂ in the _'refractive index n ₁ and the wavelength lambda ₂ in _the' ratio α ₁ / α _2, or wavelength lambda ₁ between the absorbance alpha ₂ at the wavelength lambda _2, more wavelength lambda the ratio such / n ₁ "" ratio alpha ₁ and _"the refractive index n _1" absorbance alpha ₁ in _"1, ideally taking a constant value for each component, its value is independent of the concentration of the components Therefore, if the ratio of the physical properties is also added to the determination factor, the target component should be separated more reliably.Therefore, in the preparative chromatographic apparatus of the present invention, the second physical property detection means and the physical properties are detected. A quantity ratio calculating means is newly provided, and the physical quantity ratio obtained by the physical quantity ratio calculating means is also used for the determination.

However, since there is a time delay td before the mobile phase fluid flows from the second physical property detecting means to the first physical property detecting means, the second physical property detecting means and the first physical property detecting means However, if the ratio of the output signals obtained at the same time is simply calculated, an accurate physical property ratio cannot be obtained. In the preparative chromatographic apparatus of the present invention, the delay signal is applied to the output signal of the second physical property detection device to correct the delay time td, and the accurate physical property ratio can be calculated.

(F) Embodiment One embodiment of the present invention will be described below with reference to FIGS. 1 and 2.

In this embodiment, the present invention is applied to a liquid preparative chromatograph apparatus, and FIG. 1 is a diagram for explaining a schematic configuration of the liquid preparative chromatograph apparatus. Reference numeral 2 is a column packed with a stationary phase, 3 is a pump for pressurizing the mobile phase liquid into the column 2, and 4 is a sample injection section for injecting a sample. The pump 3 can be omitted when the column is short and the particles of the stationary phase are coarse, but in this case, the column is made vertical and the mobile phase liquid flows by its own weight.

The mobile phase liquid flowing out of the column 2 is collected by the second detector _5-2 ,
A motor similar to the conventional one is passed through the first detector _5-1 in order.
It flows into the nozzle control unit 6 and the target components X ₁ , X ₂ , X ₃ , ..., Xn are separated into the containers V ₁ , V ₂ , V ₃ ,. Second detector _5-2, a first detector 5 _-1, depending on the sample, absorptiometer (UV, visible, infrared), a suitable detector such as a differential refractometer detector is selected using The configuration is such that it can be easily replaced. Since actual becomes possible to connect a commercially available detector tube or the like, the time the mobile phase fluid required to flow from the second detector _5-2 to the first detector 5 _-1, i.e. the delay time td Is a value that cannot be ignored. Hereinafter, the second detector 5 _-2
Ultraviolet absorptiometer wavelength 250 nm, described as ultraviolet absorptiometer wavelength 280nm is applied as a first detector 5 _-1 proceed as.

The output signal channels (ch ₂ , ch ₁ ) of the detectors 5 _-2 , 5 _-1 are converted into digital signals by the analog / digital (A / D) converters 7 _-1 , 7 _-2 , respectively. A / D converters 7 _-1 , 7 _-2 are
Together with the motor / nozzle controller 6, it is connected to the CPU 11 via a bus line 12.

The CPU 11 has a function of calculating the ratio R of the signals ch ₁ and ch ₂ , a function of determining whether or not a target component flows out from the column 2, a function of controlling the motor / nozzle control unit 6, and the like. There is. The memory 8 is connected to the CPU 11 via the bus line 12. The memory 8 stores various data,
A part of the area works as a delay memory. Further CPU1
A keyboard 9 and a display 10 are also connected to 1 via a bus line 12, and the keyboard 9 can be used to set a time range, a ratio R, etc., which will be described later, and the display 10 can be used to set the current status and the set value. Etc. can be confirmed.

Next, the operation of the liquid preparative chromatographic apparatus of the embodiment will be described below.
It will be described with reference to the drawings. When a stable mobile phase liquid flow is obtained in the column 2, an appropriate amount of sample is injected from the sample injection part 4. When each component of this sample moves in the column 2, it is separated by the difference in the moving speed,
The components having a high moving speed are sequentially discharged from the column 2.

CPU11, the detector 5 takes in signal ch _{2 -2} [step (hereinafter referred to as ST) 1], and stores it in the delay memory area in the memory 8 (ST2). In addition, the CPU 11 uses the detector 5
_-1 signal ch ₁ is taken in (ST3) and peak detection processing is performed (ST4). Since this peak detection process is the same as the conventional one, detailed description thereof will be omitted.

In ST5, the CPU 11 uses the delay memory area in the memory 8
The signal ch ₂ of the detector 5 _-2 delayed by the delay time Td is read, and the ratio R of the signals ch ₁ and ch ₂ of the detectors 5 _-1 , 5 _-2 , that is, the wavelength 280 nm.
The ratio between the absorbance α ₁ of α and the absorbance α _{2 of} wavelength 250 nm is calculated (ST6). In this ST6 operation, a threshold value is set in advance to prevent division by zero, and the signal ch ₁ (or c
The ratio R is calculated only when h ₂ ) is greater than or equal to this threshold.

In ST7, it determines whether the peak is detected in ch ₁ signal in the process of ST4. If this determination is YES, the process branches to ST8, and if NO, the process branches to ST11. In ST11, CPU11
Controls the motor / nozzle controller 6 to flow the mobile phase liquid to the drain.

On the other hand, in ST8, it is determined whether or not the time after the injection of the sample is within the time range for the target component Xi (i = 1, ..., N). If this determination is YES, the process branches to ST9,
If NO, branch to ST11.

In ST9, it is determined whether the ratio Ri to the target component Xi is within a predetermined range. If this determination is YES, the process branches to ST10, N
If O, branch to ST11. In ST10, the nozzle 6a is
The CPU 11 controls the motor / nozzle control unit 6 so that the mobile phase liquid containing the component Xi is located in the upper portion and is divided into the containers Vi.

When the processing of ST10 or ST11 is completed, it is determined whether or not the sorting operation is completed. If this determination is YES, the preparative operation is terminated, and if NO, the process returns to ST1. By repeating this process, the target components X ₁ , X ₂ , ..., Xn are sorted into the containers V ₁ , V ₂ ,.

When all the components of the sample flow out from the column 2, the sample is injected again from the sample injection unit 4 and the above-mentioned preparative operation is repeated. In this way, when the preparative operation is repeated, the separation state of the column 2 also changes, the peak appearance time shifts,
The order of peaks may change.

However, in this example liquid chromatograph, the presence or absence of peaks (ST7), the predetermined time range (ST8), the ratio Ri (ST9)
Since the separation is performed only when all of the three conditions are satisfied, the corresponding target component Xi can be separated in the container Vi.

In the above example, the time range, the peak, and the physical property ratio were 3
Although the target component is determined by one factor, it is also possible to determine the target component by two factors, that is, the time range and the physical property ratio.

Also, delays the signal ch ₂ detectors _5-2 may be applied to analog delay circuit, which can be designed and changed.

(G) Effect of the Invention As described above, in the preparative chromatographic apparatus of the present invention, before the mobile phase fluid flowing out from the column flows into the first physical property detecting means, the first mobile phase fluid The second physical property amount detecting means for detecting a second physical property amount different from the second physical property amount and the output signal of the second physical property amount detecting means from the second physical property amount detecting means. A delay unit for delaying the time until the flow reaches the first physical property detection unit, the second physical property delayed by the delay unit, and the first physical property value obtained by the first physical property detection unit. The physical property amount ratio calculating means for calculating the ratio of physical property amounts is provided, and the target component determining means also uses the physical property amount ratio obtained by this physical property amount ratio calculating means to determine whether or not the preparative target component is flowing out. Since it is characterized by determining the It has the advantage that it can be collected.

In particular, a second physical property detection for detecting a second physical property different from the first physical property of the mobile phase fluid before the mobile phase fluid flowing out of the column flows into the first physical property detection means. Since the means is provided, that is, the first and second physical property detecting means are arranged in series, for example, the mobile phase fluid from the column is shunted, and the physical property detecting means are respectively arranged in the respective dividing channels. Compared to the case (where the detection means are arranged in parallel), the flow path is simple and the target component can be identified and separated with high accuracy.

[Brief description of drawings]

FIG. 1 is a block diagram illustrating a schematic configuration of a liquid preparative chromatograph device according to an embodiment of the present invention, and FIG. 2 is a flow diagram illustrating an operation of the liquid preparative chromatograph device, and FIG. FIG. 1 is a block diagram for explaining a schematic configuration of a conventional liquid preparative chromatograph device, and FIG. 4 is a diagram showing an example of a detector signal of the conventional liquid preparative chromatograph device. 2: Column, 5 _-1 : First detector, 5 _-2 : Second detector, 6: Motor / nozzle controller, 8: Memory, 11: CPU.

Claims (1)

[Claims] 1. A column and a first physical quantity detecting means for detecting a first physical quantity of the mobile phase fluid flowing out from the column, and an output signal of the first physical quantity detecting means,
A preparative chromatograph comprising a target component judging means for judging whether or not the preparative target component is flowing out, and a preparative means for separating outflowing mobile phase fluid based on the judgment result of the target component judging means. In the device, a second physical quantity that is different from the first physical quantity of the mobile phase fluid is detected before the mobile phase fluid flowing out of the column flows into the first physical quantity detecting means. And a delay for delaying the output signals of the second physical property detecting means from the second physical property detecting means to the first physical property detecting means. Means and the second physical property amount delayed by the delay means,
And a physical property amount ratio calculation unit for calculating a ratio of the first physical property amounts obtained by the first physical property amount detection unit, wherein the target component determination unit is the physical property obtained by the physical property amount ratio calculation unit. A preparative chromatographic apparatus characterized by determining whether or not a preparative target component is flowing out also by using a quantitative ratio.