JP2505190B2 - Chemical analyzer - Google Patents

Description

TECHNICAL FIELD The present invention relates to a chemical analyzer for analyzing components such as serum.

[Conventional technology]

As a conventional chemical analysis device, for example, JP-A-56-24554
Japanese Patent Publication No. 56-24555 and Japanese Patent Publication No. 56-24555 are known. This type of device is designed to perform multiple item analysis on each sample, and after dispensing each sample into a sequential reaction vessel that is transported along a predetermined reaction line according to the number of analysis items. , Reagents corresponding to the analysis items are dispensed into each reaction container to obtain reaction liquids, and each reaction liquid is measured with a photometer at a fixed time interval to obtain the absorbance (reaction data), and based on that, each analysis The analysis data for the item is automatically obtained. Here, the analysis data is a collection of a plurality of reaction data obtained over time for analysis items after a certain period of time,
The reaction data is converted into a concentration according to the condition specific to the analysis item, and is output for each sample in the analysis item order according to the analysis order of each sample, that is, the dispensing order.

[Problems to be solved by the invention]

However, in the above-mentioned conventional chemical analysis device, although some analysis items can obtain analysis data quickly, after a certain time has passed for each sample, that is, the analysis item has the longest reaction time. Since the analysis data of each item are collectively output at the same time, there is a problem that it is not possible to deal with the case where the analysis data of a predetermined item is needed quickly such as an urgent sample.

Further, in the conventional chemical analyzer, even if the analysis for different samples dispensed later is completed earlier than the analysis for the sample dispensed earlier, the analysis order of the samples, that is, the dispensing order Since the analysis data is output, there is also a problem that the data processing efficiency is low.

The present invention has been made in view of such a conventional problem, and the first object thereof is to enable the effective handling of urgent sample processing after the elapse of the reaction time corresponding to the analysis item. The present invention intends to provide a chemical analysis device that is appropriately configured so that the data can be sequentially displayed.

A second object of the present invention is to provide a chemical analyzer appropriately configured so that data processing for a plurality of samples can be efficiently performed.

[Means and Actions for Solving Problems]

In order to achieve the first object, the first invention is to sequentially prepare reaction solutions of desired analysis items for different samples in a plurality of reaction vessels, measure each of the reaction solutions, and measure a plurality of reaction solutions. In a chemical analyzer which obtains the reaction data of, and automatically displays a plurality of reaction data for each reaction solution, a storage unit for storing the reaction data, and a reaction time from the storage unit. Display control means for controlling the display means to display the data relating to the analysis item, regardless of the order of preparation of the reaction solutions, automatically and sequentially from the analysis item data for which the reaction time has elapsed for each reaction solution. It is characterized in that it is configured to be displayed.

Further, in order to achieve the above-mentioned second object, the second invention is to sequentially prepare reaction solutions of desired analysis items for different samples in a plurality of reaction vessels, and measure each of these reaction solutions by photometry. In a chemical analysis device adapted to obtain a plurality of reaction data and automatically display a plurality of reaction data for each reaction solution, a storage means for storing the reaction data and a reaction time from the storage means. Display control means for controlling to display the data on a plurality of elapsed analysis items for each same sample on the display means, regardless of the order of preparing the reaction solution, the reaction time of the analysis items on the same sample. It is characterized in that the data is automatically and sequentially displayed from all elapsed data.

〔Example〕

FIG. 1 shows an embodiment of the present invention. Sample cups 1 containing different samples are connected by a chain 2 and are intermittently conveyed in the direction of the arrow by the rotation of a sprocket 3. The sample accommodated in each sample cup 1 is sucked by the sample probe 4 at a predetermined sample suction position a by an amount corresponding to the number of analysis items, and the predetermined sample is put into the sequential reaction tubes 6 held by the reaction tube wheel 5. Dispensing is performed at the dispensing position b. The sample probe 4 is movable between the sample suction position a and the sample dispensing position b, and is adapted to enter the sample in the sample cup 1 at the sample suction position a. The reaction tubes 6 are held at equal intervals on the same circumference of the reaction tube wheel 5, and are conveyed through the sample dispensing position b by the intermittent rotation of the reaction tube wheel 5 in the arrow direction. In this example, a sequential sample is sucked by the sample probe 4 at the sample suction position a by an amount corresponding to the number of analysis items,
This is dispensed into the reaction tubes 6 in the number corresponding to the number of analysis items at the sample dispensing position b, but in order to prevent contamination between the samples by the sample probe 4 at that time, after dispensing a sample, Prior to the suction of the sample, the sample probe 4 is immersed in the cleaning tank 7 for cleaning.

On the other hand, the reagents used for the analysis of each item are housed in the reagent containers 8 and set on the rotatable reagent table 9 as shown by the double-headed arrow, and the reagents corresponding to the analysis items are housed from these reagent containers 8. Set the reagent container 8 to a predetermined reagent suction position c
And the reagent is sucked by the reagent probe 10, and this is dispensed into the reaction tube 6 at the reagent dispensing position d prior to dispensing of the sample. The reagent probe 10 is movable between the reagent suction position c and the reagent dispensing position d, and is provided so as to be able to enter the reagent in the reagent container 8 positioned at the reagent suction position c, and between the reagents. To prevent contamination, wash tank after dispensing one reagent and before dispensing the next reagent
11 Make sure to invade it and clean it.

By the above dispensing of reagents and samples, the reaction tubes 6
A reaction solution corresponding to the analysis item for each sample is obtained therein, and each of them is measured through the reaction tube 6 with time. For this reason,
In this example, a light source 12 is arranged in the center of the reaction tube wheel 5, and a rotary filter 13 having a plurality of interference filters for transmitting white light from the light source 12 and light having different wavelengths, respectively.
And then enter the light guide 14, and the light guide 14
The output end of is divided into eight and predetermined positions e _{1 to} e ₈
The light passing through each reaction tube 6 is opposed to the reaction tube 6 at the (photometric point) and is received by the light receivers 15-1 to 15-8. The outputs of these light receivers 15-1 to 15-8 are stored in the reaction data storage device 16 as reaction data, and the analysis is performed after the reaction time has passed under the control of the reaction data output control device 17 from the reaction data storage device 16. The reaction data string corresponding to the item is supplied to the multiple item data processing device 18. The multiple item data processing device 18 obtains analysis data (concentration) for the analysis item based on the reaction data string corresponding to the analysis item from the reaction data storage device 16, and supplies this to the analysis data sample unit editing device 19. The analysis data sample unit editing device 19 edits the obtained analysis data for each sample (subject), automatically displays this on the CRT display 20, and prints it with the printer 21 as necessary.

The reaction tube 6 that has passed the final photometric point e ₈ is subjected to suction and discharge of the reaction liquid by the drainage device 22, and then washed and dried by the washing / drying device 23 to be ready for the next analysis.

Next, with reference to FIG. 2, a process until the reaction data is edited into analysis data in units of samples will be described.

In Fig. 2, the vertical axes S ₁ , S ₂ , ..., S ₈ are photometric points e ₁ , e ₂ ,
..., e ₈ shows the reaction vessel located on the abscissa, and the horizontal axis represents the number of reaction data and the number of absorbances obtained at sequential photometric points. It should be noted that at each photometric point, a plurality of reaction data corresponding to the number of interference filters provided in the rotary filter 13 can be obtained, but photometry was performed with light having a wavelength corresponding to the analysis item of the reaction liquid located at the photometric point. Only the reaction data is stored in the reaction data storage device 16. Therefore, for the reaction tube S ₈ located at the photometric point e ₈ , eight photometric points e ₁
To e ₈ 8 one reaction data are obtained in, also the four metering points for the reaction tube S ₄ which is located photometric point e ₄
four response data in e ₁ to e ₄ are likewise one response data in photometric points e ₁ for the reaction tube S ₁ which is located photometric point e ₁ is obtained.

Reaction tubes S ₄ , S ₇ and S with diagonal lines in the number of reaction data
₈ indicates that the reaction data corresponding to the required reaction time is stored in the reaction data storage device 16,
Regarding the other reaction tubes S ₁ , S ₂ , S ₃ , S ₅ , and S ₆ , the reaction data at the photometric points located are stored in the reaction data storage device 16, but the predetermined reaction time has elapsed. Since it is not done, it shows that it is insufficient as reaction data.

The reaction tubes S ₄ , S ₇ , and S ₈ are located at the photometric points e ₄ , e ₇ , and e ₈ , respectively, and the corresponding reaction time elapses at the time of photometry. The column is supplied from the reaction data storage device 16 to the multiple item data processing device 18 under the control of the reaction data output control device 17 to be converted into analysis data for each analysis item, and these analysis data are analyzed data sample unit editing device. The sample is edited at 19 in sample units and supplied to the CRT display 20 and the printer 21, respectively.

Similarly thereafter, every time the reaction time corresponding to the analysis item elapses, the analysis data is calculated and output based on the reaction data sequence of the reaction solution.

In this way, by automatically outputting the sequential analysis data from the analysis items for which the reaction time has passed, it is possible to quickly perform analysis data when immediate analysis data is needed or when retesting is required, especially for emergency samples. Can correspond to.

Note that the printout by the printer 21 is preferably performed on a sample-by-sample basis after the analysis data of all the items are prepared for each sample.

〔The invention's effect〕

As described above, according to the first aspect of the invention, the data of the analysis item after the reaction time has elapsed is automatically displayed for different samples regardless of the working order of the reaction solution. It is possible to effectively deal with sample processing.

In addition, according to the second invention, the data of all the analysis items regarding the same sample for which the reaction time has elapsed is automatically displayed for different samples, regardless of the order in which the reaction solutions are prepared. The data processing for the sample can be efficiently performed.

[Brief description of drawings]

 FIG. 1 is a diagram showing an embodiment of the present invention, and FIG. 2 is a diagram for explaining its operation. 1 ... Sample cup, 2 ... Chain 3 ... Sprocket, 4 ... Sample probe 5 ... Reaction tube wheel, 6 ... Reaction tube 7 ... Wash tank, 8 ... Reagent container 9 ... Reagent table, 10 …… Reagent probe 11 …… Washing tank, 12 …… Light source 13 …… Rotary filter, 14 …… Light guide 15-1 to 15-8 …… Receiver 16 …… Reaction data storage device 17 …… Reaction data output control Device 18 …… Multi-item data processing device 19 …… Analysis data sample unit editing device 20 …… CRT display 21 …… Printer 22 …… Draining device 23 …… Washing / drying device

Claims (2)

(57) [Claims] 1. A reaction solution of a desired analysis item for each of different samples is sequentially prepared in a plurality of reaction vessels, and each of the reaction solutions is photometrically obtained to obtain a plurality of reaction data. In a chemical analysis device adapted to automatically display a plurality of reaction data, a storage means for storing the reaction data, and a display means for displaying data on an analysis item whose reaction time has passed from the storage means. The display control means for controlling, characterized in that, regardless of the order of preparation of the reaction solution, it is configured to be automatically and sequentially displayed from the data of the analysis item for which the reaction time has elapsed for each reaction solution. Chemical analyzer. 2. A plurality of reaction vessels are sequentially prepared with reaction solutions of desired analytical items for different samples, and each reaction solution is photometrically obtained to obtain a plurality of reaction data. In a chemical analysis device adapted to automatically display a plurality of reaction data, storage means for storing the reaction data, and data for a plurality of analysis items whose reaction time has passed from the storage means are stored for each same sample. Display control means for controlling to collectively display on the display means, regardless of the order of preparation of the reaction solution, so as to automatically display sequentially from the data after the reaction time of all the analysis items for the same sample A chemical analyzer characterized by being configured.