JP2001153853A - Liquid chromatograph - Google Patents

Abstract

PROBLEM TO BE SOLVED: To automatically shorten the whole time of continuous analysis. SOLUTION: A request signal generation part 18 reads the1 transfer time length (time length A) of analytic condition information from a PC 12 to an SCL 14, the transfer time length (time length B) of operation information from the SCL 14 to each unit and the sample injection time length (time length C) of an auto injector 6, which are stored in a memory part 16 to calculate the total time length D thereof, and requests the transfer of the analytic condition information for the next analysis to the PC 12 at the time before the total time length D from the analysis end time E of finishing the present analysis. The PC 12 transfers the analytic condition information for the next analysis to the SCL 14 (time length A), the SCL 14 transfers the operation information for the next analysis to each unit (time length B), and the auto injector 6 perform the sample injecting operation (time length C) When it is the present analysis end time E, the sample injecting operation for the second analysis is completed, and the next analysis is immediately started.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid chromatograph in which various chemical substances are moved together with a mobile phase and analyzed using a separation column.

[0002]

2. Description of the Related Art FIG. 1 is a block diagram showing a conventional liquid chromatograph. A system controller (SCL) 2 for controlling the operation of the liquid chromatograph sends operation information to a pump 4 for sending a mobile phase, an auto-injector 6 for injecting a sample into a mobile phase flow path connected to a column, and an oven 8 for controlling a column temperature. Transmit and control operation. SCL
2 also takes in the detection signal from the detector 10 and
The data is D-converted and transmitted to a personal computer (PC) 12 as analysis condition input means. PC12 is SCL
Then, the analysis condition information is transmitted to 2.

FIG. 2 is a flowchart showing the operation of a conventional liquid chromatograph at the time of continuous analysis. When the continuous analysis is started, the analysis condition information of the first analysis is transmitted from the PC 12 to the SCL2. The transmission time length at this time is defined as time length A. Based on the analysis condition information transmitted to the SCL 2, operation information of the first analysis is transmitted from the SCL 2 to the pump 4, the auto injector 6, the oven 8, and the detector 10. The transmission time length at this time is represented by time length B.
And The pump 4, the oven 8, and the detector 10 are activated before the start of the analysis and are in a stable state in advance. If there is a change in the operating condition, the operating condition is changed. Based on the operation information transmitted to the auto injector 6,
The sample injection operation is started. The time length from the completion of the transmission of the operation information to the completion of the sample injection is defined as a time length C.

After the time length C has elapsed and the sample injection is completed, a signal for starting the first analysis is transmitted from the SCL 2 to the PC 12, and processing such as data collection for analysis is started by the PC 12 via the SCL 2. Is done. When the analysis time length T elapses from the start of the analysis, the first analysis ends, and it is determined whether or not there is the next analysis. When there is the next analysis, the analysis is repeated in the same flow as the first analysis. When analyzing samples continuously, the total analysis time is
{Time length (A + B + C) + analysis time T} × number of analyzes.

[0005]

In the conventional liquid chromatograph, in order to shorten the entire analysis time, the length of the sample injection time (time length C) is reduced by using a high-performance auto injector 6. Or high-performance P that operates at high speed
In many cases, the transmission time (time length A) of the analysis condition information is shortened using C12. In addition, using a time program that operates with time, only the auto injector 6 is operated first, but in this case,
An extra operation such as measuring the operation time of the auto injector 6 in advance by the operator is required.

As another method, a method in which the analysis conditions for each analysis in the continuous analysis are collectively transmitted from the PC to the SCL at once can be considered. However, in this method, the transmission time length of the analysis condition information of the next analysis can be reduced, but the transmission time length of the first analysis condition information becomes longer, and the analysis condition information to be changed when the analysis conditions are changed during the analysis is further increased. Has to be transmitted again.

The present invention automatically shortens the time other than the analysis time for each analysis independently of the performance of the auto-injector or the PC and does not require the operator to measure the operation time. It is an object of the present invention to provide a liquid chromatograph that can reduce the time.

[0008]

SUMMARY OF THE INVENTION The present invention relates to an operation control means for transmitting operation information to at least each unit constituting a liquid chromatograph, including at least a sample introduction unit, to control the operation of each unit, and the operation control thereof. A liquid chromatograph comprising: analysis condition input means for transmitting analysis condition information to a means; and a first chromatograph for storing a transmission time length of analysis condition information transmitted from the analysis condition input means to the operation control means.
A second storage unit that stores the transmission time length of the operation information transmitted from the operation control unit to each unit, and a third storage unit that stores the sample injection time length of the sample injection unit. When performing continuous analysis, the transmission time length of the first analysis condition information is read from the first storage unit, and the transmission time length of the first operation information is read from the second storage unit;
The first sample injection time length is read out from the third storage unit, the total time length of the time lengths is calculated, and the total time length of the first analysis is shorter than the time before the total analysis time when the current analysis ends. At least at the previous time, a request signal generating unit for requesting the analysis condition input means to transmit the analysis condition information of the next analysis is provided, and the operation control means sets the time from the current analysis end time to the time before the sample injection time length. The operation of the sample injection unit is started, the sample injection for the next analysis is completed at the same time as the analysis end time, and the next analysis is started.

FIG. 3 is a flowchart showing the operation of the present invention at the time of continuous analysis. When the continuous analysis is started, the analysis condition input means transmits the first analysis condition information to the operation control means. The first storage unit stores the transmission time length of the first analysis condition information (time length A). The operation control means transmits the operation information to each unit based on the first analysis condition information. The second storage unit stores the transmission time length of the first operation information (time length B). The sample injection unit performs the sample injection based on the first operation information. The third storage unit stores the sample injection time length (time length C). After the sample injection is completed, the analysis starts.

The request signal generator calculates the total time length of the time lengths A, B, and C (referred to as the total time length D), and calculates the analysis end time (the analysis end time E and the analysis end time E) at which the current analysis ends. The transmission of analysis condition information for the next analysis is requested to the analysis condition input means at least at a time before the time before the total time length D from the previous time. In response to the request signal, the analysis condition input means transmits the analysis condition information for the next analysis to the operation control means. The completion time of the analysis condition information for the next analysis is
This is at least a time before the time before the total time length of the time lengths B and C from the analysis end time E.

The operation control means controls the time before the total time of the time lengths B and C from the analysis end time E to start the operation of the sample injection unit at the time before the time length C from the analysis end time E. Then, transmission of the operation information to the sample injection unit is started based on the analysis condition information of the next analysis transmitted. After the time length B has elapsed and the transmission of the operation information is completed, the sample injection unit starts the operation of sample injection. The start time is a time before a time length C from the analysis end time E. When the time length C elapses and the analysis end time E is reached, the sample injection for the next analysis is completed, and the current analysis ends and the next analysis starts. In the second and subsequent repetitive analyses, the analysis conditions of the next analysis are anticipated, and the next sample injection operation is started by the sample introduction unit at a time before the analysis end time E and the time length C. , B, C can be reduced.

[0012]

FIG. 4 is a block diagram showing one embodiment.
However, the present invention is not limited to this embodiment, and various changes can be made within the scope of the claims. S for controlling the operation of the liquid chromatograph
A CL (operation control means) 14 is provided. The operation control means 14 controls operation by transmitting operation information to the pump 4, the auto injector 6, the oven 8, and the detector 10. The SCL 14 also takes in the detection signal from the detector 10, performs A / D conversion, and converts the signal into a PC (analysis condition input means) 1.
Transmit to 2. The PC 12 transmits the analysis condition information to the SCL 14. Although not shown in FIG.
Controls not only the pump 4, the auto-injector 6, the oven 8 and the detector 10, but also controls other units such as, for example, the control of opening and closing of valves.

The operation control means 14 is provided with a storage section 16 which stores a transmission time length (time length A) of the analysis condition information transmitted from the PC 12 to the SCL 14;
The transmission time length (time length B) of the operation information transmitted from the SCL 14 to each of the units 4, 6, 8, and 10, and the sample injection time length (time length C) of the auto injector (sample injection unit) 6 Is stored. Further, the request signal generator 1
8 are provided, and the request signal generation unit 18 performs the time length A, the time length B, and the time length C when performing the continuous analysis.
Is read from the storage unit 16 and the total time length D of the time lengths is calculated, and the PC 12 analyzes the next analysis time at the time before the total time length D from the analysis end time E at which the current analysis ends. A request signal for requesting transmission of condition information is transmitted. The first, second and third storage units of the present invention are the storage unit 16
It is realized by. Also, as a connection medium between the PC 12 and the SCL 14, a general-purpose transmission protocol RS23 is used.
If 2C or SCSI is used, any software on the PC 12 side can be used.

Referring to FIGS. 3 and 4, the operation of this embodiment at the time of continuous analysis will be described. When the continuous analysis starts,
The PC 12 transmits the analysis condition information of the first analysis to the SCL 14. The storage unit 16 stores the transmission time length (time length A). The SCL 14 transmits operation information of the first analysis to the pump 4, the auto injector 6, the oven 8, and the detector 10 based on the analysis condition information from the PC. The storage unit 16 stores the transmission time length (time length B).

The auto injector 6 injects a sample based on the transmitted operation information. The storage unit 16 stores the sample injection time length (time length C). Time length C
When the injection of the sample is completed after elapse of the first time, the first analysis is started, and the SCL 14 transmits a signal for starting the first analysis to the PC 12. The PC 12 starts processing such as data collection for the first analysis via the SCL 14.

The request signal generator 18 reads the time lengths A, B, and C from the storage unit 16 and calculates the total time length D
Is calculated. When a total time length D is reached before the analysis time length T of the current analysis ends (analysis end time E), a request signal for requesting transmission of analysis condition information for the next analysis is transmitted to the PC 12. I do. The PC 12 transmits the analysis condition information for the next analysis, for example, the second analysis to the SCL 14 according to the request signal. The time length A elapses before the transmission is completed. The SCL 14 determines whether or not to transmit operation information to each of the units 4, 6, 8, and 10 based on the analysis condition information of the next analysis, and determines that the operation information of the second analysis is the same as the operation information of the first analysis. It is preferable to omit the transmission of the operation information to the same unit.

When the transmission of the operation information is completed after the time length B has elapsed and the time has elapsed before the sample injection time length C from the analysis end time E, the auto injector 6 sets the sample injection for the second analysis. Start operation. When the analysis end time E at which the first analysis ends after the time length C has elapsed, the sample injection operation for the second analysis is completed, and the next analysis starts immediately. The SCL 14 transmits to the PC 12 a signal indicating the end of the first analysis and a signal indicating the start of the second analysis. PC12
Starts processing such as data collection for the second analysis via the SCL 14. The PC 12 determines whether or not all the analyzes in the continuous analysis have been completed.
The information to that effect is transmitted to 14. As in the second analysis, the SCL 14 precedes the analysis condition information for the next analysis, and controls each unit so that the next analysis is started immediately after the current analysis is completed.

FIG. 5 is a time chart of a liquid chromatograph, in which (A) shows the prior art and (B) shows the present invention. When a sample is continuously analyzed according to this embodiment, the total analysis time is the time length (A + B + C) + the analysis time T × the number of analyses, and the total time of the continuous analysis is represented by the time length (A + B +
C) It is possible to automatically reduce the time by Δ × (the number of analysis times after the second time).

In this embodiment, the storage unit 16 and the request signal generation unit 18 are provided in the SCL 14, but the present invention is not limited to this, and the storage unit 16 and the request signal generation unit 18 are provided in the PC 12. May be provided, or a separate housing means may be provided. Also, a PC is used as the analysis condition input means.
Although 12 is used, the present invention is not limited to this, and other analysis condition input means such as providing the SCL 14 with an analysis condition input function may be used. Also,
Although the first, second, and third storage units are realized by the storage unit 16, the present invention is not limited to this, and may be realized by separate storage units.

[0020]

According to the liquid chromatograph of the present invention, when performing a continuous analysis, the request signal generation unit transmits the analysis condition information transmitted from the analysis condition input means to the operation control means by the request signal generation unit, and determines the transmission time length A and the operation time. The total time length D of the transmission time length B of the operation information transmitted from the control means to each unit and the sample injection time length C of the sample injection unit is calculated. At least at a time before the time before the total time length D, a request is made to the analysis condition input means to transmit the analysis condition information for the next analysis to pre-fetch the analysis condition information, and the current control end time is obtained by the operation control means. The operation of the sample injection unit is started at a time before the sample injection time, and the sample injection for the next analysis is completed at the same time as the analysis end time.The next analysis is started immediately after the current analysis is completed. , So that the time other than the analysis time for each analysis is automatically reduced regardless of the performance of the auto-injector or PC and the operator does not measure the operation time, thereby reducing the overall time for continuous analysis. can do.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a conventional liquid chromatograph.

FIG. 2 is a flowchart showing the operation of a conventional liquid chromatograph at the time of continuous analysis.

FIG. 3 is a flowchart showing the operation during continuous analysis according to the present invention.

FIG. 4 is a block diagram showing one embodiment.

FIG. 5 is a time chart of a liquid chromatograph, in which (A) shows a conventional technique and (B) shows the present invention.

[Explanation of symbols]

 2, 14 System controller (SCL) 4 Pump 6 Auto injector 8 Oven 10 Detecting means 12 Personal computer (PC) 16 Storage unit 18 Request signal generation unit

Claims (1)

[Claims] 1. An operation control means for transmitting operation information based on analysis conditions to each unit constituting a liquid chromatograph, including at least a sample introduction unit, to control the operation of each unit, and analyzing the operation control means. A liquid chromatograph comprising: analysis condition input means for transmitting condition information; a first storage unit for storing a transmission time length of the analysis condition information transmitted from the analysis condition input means to the operation control means; A second storage unit that stores a transmission time length of operation information transmitted from the operation control unit to each of the units, a third storage unit that stores a sample injection time length of the sample injection unit, When performing the analysis, the transmission time length of the first analysis condition information is read from the first storage unit, and the transmission time length of the first operation information is read from the second storage unit. Out,
The first sample injection time length is read from the third storage unit, and the total time length of those time lengths is calculated,
A request signal generation unit that requests the analysis condition input unit to transmit the analysis condition information of the next analysis at least at a time before the time before the total time length from the analysis end time at which the current analysis ends, The operation control means starts the operation of the sample injection unit at a time before the sample injection time length from the analysis end time, and completes the sample injection of the next analysis at the same time as the analysis end time, and A liquid chromatograph characterized in that analysis of the liquid chromatograph is started.