JP2951418B2 - Sample liquid component analyzer - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to, for example, an ion-exchange separation method, particularly for efficiently analyzing trace metal components in ultrapure water or analyzing various components contained in a sample solution. The present invention relates to a sample liquid component analyzer.

[0002]

2. Description of the Related Art FIG.
This is a metal component analyzer proposed in No. 80529. In the figure, reference numeral 1 denotes an automatic flow path switching valve, and a sample liquid supply path 30 is connected to an outlet of the automatic flow path switching valve 1. In the sample liquid supply path 30, a liquid feed pump 2, a reactor 3, an overflow container 4, a three-way automatic switching valve 5, a pressure pump 6,
The pressure sensor 6A is attached. The sample liquid supply path 30 is finally connected to the first four-way automatic switching valve 7. The first four-way automatic switching valve 7 is connected to an inflow path 8a to the first concentration column 8, an inflow path 9a to the second concentration column 9, and an eluent supply path 31.
The eluent supply path 31 is provided with a pressurizing pump 17 and an eluent reservoir 18. The outflow passage 8b from the first concentration column 8 and the outflow passage 9b from the second concentration column 9 are connected to a second four-way automatic switching valve 10. The second four-way automatic switching valve 10 further includes a line 3 connected to an analysis means 32 including a separation column 11 and an absorptiometer 12.
3 is connected to a line 35 connected to a drainage channel 34, and the flowmeter 19 is attached to the line 35. That is, the first four-way automatic switching valve 7 is provided at a branch where the sample liquid supply path 30 branches into the inflow paths 8a and 9a, and the second four-way automatic switching valve 10 is connected to the outflow paths 8b and 9b by the line 33. A sample liquid and an eluent are selectively supplied to the concentration column 8 or the concentration column 9 to the analysis means 32 or the line 35.

Next, a detailed configuration and operation of the metal component analyzer will be described. The automatic flow path switching valve 1 is connected to six sample liquid inflow paths 1A to 1F.
One of these sample liquid inflow paths 1A to 1F is selectively connected to the sample liquid supply path 30. The sample liquid flowing into the sample liquid supply path 30 is sent to the reactor 3 by the liquid sending pump 2. On the upstream side of the reactor 3, a reaction solution supply path 37 including a reaction solution storage section 15 storing a reaction solution such as hydrochloric acid and a liquid sending pump 16 is connected, and metal in the sample solution is ionized. Is added to the sample solution. Then, the sample liquid to which the reaction liquid has been added is mixed in the reactor 3 and then heated to a predetermined temperature. As a result, the metal in the sample liquid is ionized. The sample liquid that has passed through the reactor 3 is temporarily stored in the overflow container 4, and the sample liquid having exceeded a predetermined storage amount is discharged to the drain 34 through a line indicated by L2. The sample liquid that has passed through the overflow container 4 reaches the three-way automatic switching valve 5. The three-way automatic switching valve 5 guides a part of the sample liquid flowing through the sample liquid supply path 30 to a drain path 34 through a line indicated by reference numeral L3. That is, when the automatic flow path switching valve 1 is switched and another sample liquid is supplied, first, the flow path is switched to the line L3 side, and the automatic flow path switching valve 1 and the three-way automatic switching valve 5 are switched.
Is completely washed away. Thereafter, the flow path is switched to supply the sample liquid to the sample liquid supply path 30.
(Pressurizing pump 6 side). The selection of the sample liquid inflow paths 1A to 1F by the automatic flow path switching valve 1 and the switching of the three-way automatic switching valve 5 are performed based on a signal output from the control unit C.

The sample liquid that has passed through the three-way automatic switching valve 5 is pressurized by a pressurizing pump 6. When the sample liquid is pressurized by the pressurizing pump 6 to a predetermined pressure or higher, a detection signal for stopping the operation of the pressurizing pump 6 is output from the pressure sensor 6A to the control unit C. It has become. The sample liquid pressurized by the pressure pump 6 is supplied to the first concentration column 8 or the second concentration column 8 by the first four-way automatic switching valve 7.
Is supplied to the concentration column 9. The first four-way automatic switching valve 7 and the second four-way automatic switching valve 10 are
The eluent supplied from the eluent supply channel 31 is passed through the eluent supply channel 31 and the eluate supplied from the eluent supply channel 31 is passed through the concentration column 8 or 9 and then to the drain 34 through the line 35. A flow path of a metal ion elution step which is led to the analysis means 32 after passing through 9 or 8;
It is formed alternately for the concentration columns 8 and 9.
The four-way automatic switching valves 7 and 10 are switched by the flow meter 19
The measurement is performed by a signal transmitted from the control unit C when the flow rate value of the sample liquid passing through the line 35 measured at the time reaches a set value.

When the sample solution passes through the concentration column 8 or 9, metal ions in the sample solution are adsorbed on the concentration column 8 or 9 (the metal ion concentration step). The metal ions adsorbed on the concentration column 8 or 9 are eluted from the concentration columns 8 and 9 by the eluent supplied from the eluent supply path 31 and carried to the analysis means 32 (the metal ion elution step). When the eluent is pressurized by the pressurizing pump 17 to a predetermined pressure or higher, a detection signal for stopping the operation of the pressurizing pump 17 is output from the pressure sensor 17A to the control unit C. It has become. Further, the metal ions carried to the analysis means 32 are purified by the separation column 11, then colored by the coloring solution from the coloring solution supply channel 38, and the concentration is measured by the absorptiometer 12. The coloring liquid is supplied from the coloring liquid storage unit 21 to the coloring liquid supply path 38 by a liquid sending pump indicated by reference numeral 20.

[0006]

In the metal component analyzer constructed as described above, the automatic flow switching valve 1
If the sample liquid introduced through the sample contains a component other than the component to be originally measured, for example, if a particle having a large diameter or a component exhibiting strong alkalinity is contained, the piping of the apparatus becomes clogged. Or the piping may be corroded, thereby deteriorating the accuracy of metal component analysis of the sample liquid. The present invention has been made in view of the above circumstances, and monitors a state of a sample liquid introduced into a pipe to prevent a component that reduces the accuracy of metal component analysis from being mixed. The purpose is to provide the device.

[0007]

According to the present invention, there is provided a sample liquid component wherein the metal component contained in the sample solution is ionized to adjust the pH, and then the metal component is extracted by column purification to measure the concentration. In the analyzer, a water quality monitoring sensor is provided in an upstream flow path of a sample introduction means for introducing the sample liquid into the apparatus, and monitors a state of the sample liquid; and the water quality monitoring sensor and the sample introduction means. A switching valve for switching the sample liquid passing through the water quality monitoring sensor to one of a flow path leading to the sample introduction means and a flow path for discharging the sample liquid; and Numerical data indicating the state of the sample liquid detected by the sensor is compared with a previously input set value, and as a result of the comparison, when the numerical data exceeds the set value, the switching valve is set to the sample. Drain the liquid And it is provided with a control unit for outputting a control signal for switching the flow path of the side to be.

[0008]

In the sample liquid component analyzer according to the present invention,
In the stage before supplying the sample liquid to the sample liquid introduction means,
The water quality monitoring sensor monitors whether or not a component unsuitable for the analysis of the metal component in the sample liquid, for example, a component that clogs the pipe, or a component that corrodes the pipe, is mixed. The switching valve is operated based on the switching valve. That is, by operating the switching valve, it is possible to guide the sample liquid unsuitable for the analysis of the metal component to the flow path on the side from which the sample liquid is discharged, and discharge it to an external system.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The construction of a metal component analyzer as an example of a sample liquid component analyzer of the present invention will be described below with reference to FIG. In this embodiment, the same reference numerals are given to portions having the same configuration as in FIG. 2 shown in the related art, and the description will be simplified. First, what is indicated by reference numeral 40 in FIG. 1 is a water quality monitoring sensor provided in the middle of the flow path 41A.
As the water quality monitoring sensor 40, for example, (1) a sensor for measuring the particle diameter of particles contained in a sample liquid, (2) a sensor for measuring a ratio of particles having a certain diameter or more, that is, a concentration of impurity particles, (3) A device for measuring the pH of a sample liquid is used, and if the detected value (particle size, concentration, pH value) exceeds a preset threshold value, it is regarded as abnormal. The determination as to whether or not such a detected value exceeds a preset threshold value is made by a control unit C described later. The concentration measurement by the water quality monitoring sensor 40 in (2) is performed not only by counting the number of particles having a certain diameter or more, but also based on the conductivity of the sample liquid. The flow path 4 provided with the water quality monitoring sensor 40 is also provided.
At the end of 1A, a three-way passage switching valve 42 is provided. Of the two passages separated from the three-way passage switching valve 42, the passage 4
1B is connected to one of the sample inflow channels 1A to 1F of the automatic channel switching valve 1, and the channel 41C is connected to the drain channel 34. In the present embodiment, the sample inflow path to which the flow path 41B is connected is 1A, but is not limited thereto, and may be a sample inflow path of 1B to 1F.

[0010] In the metal component analyzer configured as described above, the detection value detected by the water quality monitoring sensor 40 is supplied to the control unit C.
If the detected value exceeds a preset value (set in the control unit C), it is determined that the sample liquid supplied through the flow path 41A is not suitable for analyzing the metal component, Perform the following operations. That is, when the control unit C determines that the detection value exceeds a preset value, it determines that the sample liquid supplied through the flow path 41A is not suitable for analyzing the metal component. The control signal for connecting the flow path 41A and the flow path 41C is supplied to the three-way flow path switching valve 42, and the sample liquid supplied through the flow path 41A is supplied to the drain path 34. On the other hand, when the control unit C determines that the detection value is less than the preset value, it determines that the sample liquid supplied through the flow path 41A is suitable for analyzing the metal component. , The three-way flow path switching valve 42, the flow path 41A
And a control signal for connecting the flow path 41B to the flow path 41B.
The sample liquid supplied through 1A is supplied to the sample inflow path 1A of the automatic flow switching valve 1.

In the metal component analyzer as described above, at a stage before the sample liquid is supplied to the automatic flow switching valve 1, a component that is not suitable for the analysis of the metal component in the sample liquid, that is, the pipe is clogged. When the components to be corroded and the components that corrode the piping are mixed, the sample liquid is discharged to an external system without being sent to the automatic flow switching valve 1, so that the apparatus can be protected as a result. With
The effect is obtained that the accuracy of the metal component analysis can be prevented from lowering. In this embodiment, the metal component analyzer is provided at the subsequent stage of the water quality monitoring sensor 40.
What is provided downstream of the water quality monitoring sensor 40 is not limited to the metal component analyzer, but is a carbon content measuring device for analyzing the carbon content and a device for measuring the content (concentration) of other components. Needless to say, it is good.

[0012]

As is clear from the above description, in the sample liquid component analyzer according to the present invention, before the sample liquid is supplied to the sample liquid introduction means, the water quality monitoring sensor uses In analyzing the metal components, it was monitored whether or not an unsuitable component was mixed, and the switching valve was operated based on the monitoring result of the water quality monitoring sensor. That is, by operating the switching valve, a sample liquid unsuitable for the analysis of the metal component can be guided to the flow path on the side where the sample liquid is discharged and discharged to an external system, thereby protecting the apparatus. It is possible. When the present invention is applied to a metal component analyzer, as described above, a sample solution unsuitable for metal component analysis can be discharged to an external system. The advantage is that the accuracy can be prevented from lowering.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing a metal component analyzer as an example of a sample liquid component analyzer of the present invention.

FIG. 2 is a schematic configuration diagram showing a conventional metal (sample liquid) component analyzer.

[Explanation of symbols]

 Reference Signs List 1 automatic flow path switching valve (sample introduction means) 40 water quality monitoring sensor 41A flow path 41B flow path (flow path leading to sample liquid introduction means) 41C flow path (flow path for discharging sample liquid) 42 three-way flow path switching valve ( Switching valve)

Claims (1)

(57) [Claims] 1. A sample liquid component analyzer for analyzing a component of a sample liquid, wherein the sample liquid component analyzer is provided in an upstream flow path of a sample introducing means for introducing a sample liquid to be analyzed into the apparatus. A water quality monitoring sensor for monitoring the condition of the sample, provided between the water quality monitoring sensor and the sample introduction means, a sample liquid passing through the water quality monitoring sensor, a flow path leading to the sample introduction means, or the sample A switching valve for switching to one of the flow paths for discharging the liquid, and comparing the numerical data indicating the state of the sample liquid detected by the water quality monitoring sensor with a previously input set value,
As a result of the comparison, if the numerical data exceeds the set value,
A sample liquid component analyzer, comprising: a control unit that outputs a control signal for switching the switching valve to a flow path on a side from which the sample liquid is discharged.