JP2801073B2 - Dilution system for electrolyte measurement - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a method of weighing a sample such as blood or urine, diluting the sample to a predetermined magnification with a diluent, introducing the diluted sample into an electrolyte measurement system, and selecting an ion. Na ⁺ in serum and plasma by the electrode method, K ^+, Cl ^- relates dilution system for electrolyte measurement to measure the concentration.

[Conventional technology]

Ion-selective electrode method using a flow electrode
Na ⁺ in plasma, K ^+, Cl ^- in the electrolyte measurement dilution system for measuring the concentration and measuring the analyte as it concentrations has the following various problems such as. Since the concentration is high, it is necessary to sufficiently clean the electrode, and the degree of deterioration of the electrode is still severe. In addition, the longer the entire channel system, the larger the amount of sample used. Further, since a semi-solid component such as a protein or lipid is contained and a volume error occurs, a measurement error increases. Therefore, a method of diluting a sample with a diluent at a certain magnification and performing measurement is generally adopted.

[Problems to be solved by the invention]

However, in the conventional system, in general, a specimen and a diluent are put into a diluting container and agitated using a stirring rod for dilution, so that draining, washing, and contamination of the diluted sample are problematic. Therefore, the structure tends to be complicated.

Further, in the electrolyte measurement, since the potential measured by the electrode is minute, it is necessary to electrically insulate the electrode and the measurement sample from the outside in order to increase the measurement accuracy. Especially,
When a sample is diluted and measured, a dispensing mechanism from a dilution unit is required, and electrical insulation from this becomes a problem.

An object of the present invention is to solve the above-mentioned problems, and it is an object of the present invention to influence an electrolyte measurement dilution system capable of measuring a diluted electrolyte with a simple configuration using a closed system. Another object of the present invention is to make it easy to perform dilution and stirring and to easily insulate a measurement system.

[Means for solving the problem]

For this purpose, the present invention provides a dilution system for measuring an electrolyte, in which a sample is weighed, diluted with a diluent at a predetermined magnification, and the diluted sample is introduced into an electrolyte measuring system. Diluent introducing means for introducing the sample, first air introducing means for introducing pressurized air for stirring the sample and the diluent, deriving means for leading the diluted sample to the electrolyte measurement system, and pressurized air for washing. Second air introduction means to be introduced,
And a switching means for switching lines connected to upper and lower openings of the dilution cell, wherein the switching means switches and connects lines of the sample diluent introduction means, the first air introduction means and the discharge means to the lower opening of the dilution cell. The second opening is connected to the upper opening by switching between the second air introducing means and the line for opening and closing the atmosphere.

[Action]

In the dilution system for electrolyte measurement of the present invention, a dilution cell having an opening at the top and bottom is used, and the introduction of the sample and the diluent, the introduction of pressurized air for stirring, and the extraction of the diluent are connected to the upper and lower openings of the dilution cell by switching means. Switch the line to be performed.
Automation of the dilution system can be easily performed by operating the switching means. Moreover, since the sample and the diluent are stirred by the air by introducing the pressurized air into the dilution cell, the stirring without contamination becomes possible. Further, using a four-way switching means in the outlet section, the dilution cell side is switched to and connected to the flow cell and the drain of the electrolyte measurement system, and the flow cell of the electrolyte measurement system is connected to the introduction line of the internal standard solution with the dilution cell side connected to the drain. , The dilution system can be insulated from the measurement system and the electric system.

〔Example〕

 Hereinafter, embodiments will be described with reference to the drawings.

FIG. 1 shows one embodiment of a dilution system for measuring an electrolyte according to the present invention.
It is a figure showing an example.

In FIG. 1, a sampling cup 1 is a container for storing a sample such as collected blood or urine. The sampling pipette 2 reciprocates the sampling nozzle between the sampling cup 1 and the washing jar 3 to aspirate a sample and wash the washing jar 3.
The diluting liquid is discharged to the suction port, and the discharged diluting liquid is sucked. The sampling pump 10 performs weighing and transfer of the sample, and the dilution pump 11 performs dilution of the sample, cleaning of the dilution cell 5, and the like. The drain air valve 6 is an electromagnetic valve that supplies pressurized air for washing the drainage of the dilution cell 5, and the mixing air valve 7 is an electromagnetic valve that supplies pressurized air for stirring the dilution cell 5. Is
The pressure of the pressurized air for stirring is adjusted.

The ion-selective electrode 21 is an electrode for selectively measuring the activity of Na, K, and Cl ions, and the comparative electrode 22 is a reference electrode for extracting the potential of each ion electrode. Flow cell 23
Is a cell for guiding a standard solution or sample to each electrode surface. The standard solution pump 27 is a pump for transferring the standard solution from the internal standard solution tank 31 to the pot 29, and the waste solution pump 26 is
A pump for transferring a standard solution or a sample into the flow cell 23 and draining it to the waste liquid tank 32, a comparative external cylinder liquid pump 25 includes:
This is a pump for transferring the comparative external cylinder liquid from the comparative external cylinder liquid tank 33 to the flow cell 23. Pot 29 contains flow cell 23
And a function of shutting off the flow path from the standard solution supply system during measurement.

The dilution cell 5 has upper and lower openings, and mixes the sample and the diluent with pressurized air. The upper opening is opened to the atmosphere, and the sample, the diluent, and the washing solution (diluent) are opened from the lower opening. Is introduced, the upper opening is closed, the sample and the diluent are stirred with pressurized air from the lower opening, and the upper opening is opened to the atmosphere,
The waste liquid pump 26 is operated to transfer the diluted sample from the lower opening.

The pump change valve 9 is a rotary type valve including an upper stator S and a lower rotor R in the figure. By moving (rotating) the rotor R in the horizontal direction in the figure, the line Y1 has a switching position to be selectively connected to A, B, and C on the stator S side, and the sampling pump 10, the dilution pump 11. Switching between suction and discharge is performed. Similarly, the dilution valve 4 is a rotary valve including an upper stator S and a lower rotor R in the figure. Then, the lower opening of the dilution cell 5 connected to the stator S side is moved by rotating (rotating) the rotor R in the left-right direction in the figure, so that A,
It has a switching position that is selectively connected to B and C, and switches the stirring, transfer, and drainage of the diluent. The four-way change valve 13 is a connection between the dilution system and the measurement system,
Switching is performed, and at the time of measurement, the flow path is cut off from the dilution system.

 Next, the measurement flow will be described.

 FIG. 2 is a diagram showing an outline of the measurement flow.

Since the weighing of the sample starts from a state where the diluting system is filled with the diluent, an operation for setting the initial state will be described. When the pump change valve 9 is in the position shown, the sampling pump 1
0, since it communicates with the dilution pump 11 and the other line B1 of the dilution pump 11 is closed,
The diluent is sucked from the diluent tank 30 by the suction operation of the sampling pump 10 and the dilution pump 11. Therefore, after suction of the diluent, the rotor R of the pump change valve 9 is shifted to the left in the figure to connect the line Y1 on the rotor R side to the line Y3 of the stator S. In this state, the line Y1 connected to the other side of the sampling pump 10 is closed on the stator S side of the pump change valve 9. Therefore, the diluting liquid is discharged from the line Y3 to the sampling pipette 2 through the dilution valve 4 by the discharging operation of the sampling pump 10. Thereafter, by returning the pump change valve 9 to the original position and performing the suction operation and the same discharge operation again, the dilution system is exhausted, filled with the diluent, and further discharged from the sampling pipette 2. Therefore, by setting the sampling pipette 2 to the washing pot 3 side, the washing pot 3 is also filled with the diluent.

From the above state, the process shifts to the weighing of the sample and the replacement and measurement of the internal standard solution as follows. The dilution valve 4, the pump change valve 9, and the four-way change valve 13 start in the illustrated state.

First, the sampling pump 10 performs a predetermined stroke suction operation with the sampling pipette 2 in the space position, and then performs the same suction operation in the order of the sampling cup 1, the space, and the washing jar 3. As a result, the line from the sampling pipette 2 to the dilution valve 4 contains the diluent-air-sample-air-diluent with the volume corresponding to the suction stroke of the sampling pump 10. The reason why both sides of the weighed sample are insulated from the diluent with air is to prevent the sample from diffusing into the diluent by directly contacting the sample and the diluent.

On the other hand, while the standard solution pump 27 is activated to transfer the standard solution to the pot 29, the standard solution and the comparative external solution are transferred to the flow cell 23 by the waste liquid pump 26 and the comparative external solution pump 25.

Next, the dilution valve 4 moves the rotor to the right in the figure, connects the line on the stator side to which the sampling pipette 2 is connected to the line Y2 on the rotor side, and the pump change valve 9 connects the rotor to the rotor. Is moved rightward in the figure to connect the rotor line Y1 and the stator line Y2. Then, the sample is set in the line Y2 between the dilution valve 4 and the pump change valve 9 by the suction operation of the sampling pump 10. Thereafter, the dilution valve 4 moves to the position shown in the figure, and the pump change valve 9 moves the rotor to the left in the figure to connect the line B1 on the rotor side to the line Y2 on the stator side. The sample and the diluent are introduced into the dilution cell 5 by the ejection operation 11. In this case, the amount of the diluting liquid to be introduced into the dilution cell 5 is determined by the discharge stroke of the dilution pump 11. For example, when diluting by a factor of 20, if the sampling pump 10 weighs 10 μl,
The discharge stroke of the dilution pump 11 is determined so that 190 μl of the diluent is introduced into the dilution cell 5.

When the sample and the diluent are introduced into the dilution cell 5, the dilution valve 4 moves the rotor to the left in the figure, opens the mixing air valve 7, and agitates the inside of the dilution cell 5 with pressurized air. In this case, since the upper line of the dilution cell 5 is closed on the rotor side of the dilution valve 4,
Pressurized air is supplied and stirred until the pressure in the dilution cell 5 is balanced.

When the stirring is completed, the dilution valve 4 moves the rotor further to the left in the figure, connects the bottom line of the dilution cell 5 to the four-way change valve 13 side, and the four-way change valve 13 The diluted sample is transferred to the flow cell 23 by operating the waste liquid pump 26 and introduced to the ion-selective electrode 21. In this case, the upper opening of the dilution cell 5 is connected to the drain air valve 6
And is opened to the atmosphere by a drain air valve 6.

Needless to say, the measurement of the internal standard solution is performed before the diluted sample is introduced into the electrode after the internal standard solution is replaced and the stable time has elapsed.

Then, after the stabilization time elapses after the diluted sample is introduced into the electrode, the four-way change valve 13 is returned to the state shown in the figure, the flow system is shut off, the sample is measured, and then washing using the internal standard solution is performed. Run.

On the other hand, after the diluted sample has been transferred to the flow cell 23, the dilution cell 5 is washed in the washing mode. in this case,
Using, for example, a diluting solution as the washing water, switching the dilution valve 4 and introducing the same through the lower opening as with the sample,
Thereafter, pressurized air is introduced from the drain air valve 6 through the upper opening, and drained from the four-way change valve 13 to the drain through the lower opening.

It should be noted that the present invention is not limited to the above embodiment, and various modifications are possible. For example, in the above embodiment, the washing is completed only once, but in the case of a specimen having a high concentration such as urine, a step may be set to increase the number of washings. Further, the dilution valve 4 and the pump change valve 9 are each configured by one rotary type valve, but may be configured by being divided into a plurality of valves.

〔The invention's effect〕

As is clear from the above description, according to the present invention, dilution and stirring of a sample can be performed automatically, and at the time of measurement,
Since the flow path can be insulated from others, electrically stable measurement can be performed, and measurement accuracy can be improved. In addition, since the stirring is performed using the pressurized air, the problem of contamination caused by using a stirrer or the like can be avoided. Using a dilution cell with upper and lower openings,
The switching means switches the lines connected to the upper and lower openings of the dilution cell to introduce the sample and diluent, to introduce the pressurized air for stirring, and to extract the diluent. System automation can be performed.

[Brief description of the drawings]

FIG. 1 is a diagram showing one embodiment of a dilution system for measuring an electrolyte according to the present invention, and FIG. 2 is a diagram showing an outline of a measurement flow. 1 ... sampling cup, 2 ... sampling pipette, 3 ... washing pot, 4 ... dilution valve, 5
... Dilution cell, 6 ... Drain air valve, 7 ... Mixing air valve, 8 ... Resistance tube, 9 ... Pump change valve, 10 ... Sampling pump, 11 ... Dilution pump, 13 ... Four-way change valve , 21 ... ion-selective electrode, 22 ... comparative electrode, 23 ... flow cell,
25 ... Comparative external cylinder liquid pump, 26 ... Waste liquid pump, 27 ... Standard liquid pump, 29 ... Pot, 30 ... Diluent tank, 31 ...
… Internal standard liquid tank, 32… Waste liquid tank, 33… Comparative outer cylinder liquid.

Continuation of the front page (56) References JP-A-51-74690 (JP, A) JP-A-62-251665 (JP, A) JP-A-62-81544 (JP, A) JP-A-49-65277 (JP) , A) Fully open 63-150366 (JP, U) Fully open 57-153253 (JP, U) Fully open 1974-40985 (JP, U) Fully open 61-181347 (JP, U) (58) Surveyed field (Int.Cl. ⁶ , DB name) G01N 1/00 101 G01N 1/10

Claims (3)

(57) [Claims] An electrolyte measuring dilution system for weighing a sample, diluting the sample with a diluent at a predetermined magnification, and introducing the diluted sample into an electrolyte measuring system, comprising a dilution cell having upper and lower openings, a sample and a diluent. A sample diluent introducing means for introducing, a first air introducing means for introducing pressurized air for stirring the sample and the diluent,
Deriving means for deriving a diluted sample into the electrolyte measurement system, second air introducing means for introducing pressurized air for washing, and switching means for switching lines connected to upper and lower openings of the dilution cell,
The switching means switches and connects the lines of the sample diluting liquid introducing means, the first air introducing means and the deriving means to the lower opening of the dilution cell, and the second air introducing means, opening to the atmosphere and closing the upper opening. A dilution system for electrolyte measurement, characterized in that the lines are switched and connected. 2. The deriving means switches and connects the dilution cell side to a flow cell and a drain of an electrolyte measurement system, and switches the flow cell of the electrolyte measurement system to an internal standard solution introduction line with the dilution cell side connected to the drain. The dilution system for measuring an electrolyte according to claim 1, further comprising a four-way switching means for connection. 3. In a dilution mode, a predetermined amount of a sample and a diluent are sequentially introduced into a dilution cell from a sample diluent introduction means, and then pressurized air is introduced into the dilution cell from a first air introduction means. After performing the stirring process, the diluted sample is introduced into the electrolyte measurement system through the deriving means, the washing liquid is introduced into the dilution cell from the sample diluting liquid introducing means in the washing mode, and the pressurized air is introduced and derived from the second air introducing means. The dilution system for measuring an electrolyte according to claim 2, wherein the cleaning liquid is led to the drain through the means.