JPH085639A - Automatic blood analyzer - Google Patents

Abstract

PURPOSE:To obtain an automatic blood analyzer in which a control blood serum and standard blood serum can be held in an appropriate state using an existing reagent preservation case without requiring any preservation case for exclusive use. CONSTITUTION:A reagent preservation case 5 is structured such that a control blood serum and a standard blood serum can be preserved in an appropriate state using the idle space. The reagent preservation case 5 is provided with a specimen dispenser 11 for sucking and delivering a specimen from a specimen table 3 and/or the reagent preservation case 5, and a reagent dispenser 13 for sucking and delivering a reagent from the reagent preservation case 5. Since the need of preservation case for exclusive use and a temperature regulation means is eliminated, size and cost of automatic blood analyzer are reduced while allowing analysis of control blood cell and standard blood cell at will.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic blood analyzer for analyzing blood components.

[0002]

2. Description of the Related Art In order to improve the reliability of analysis data, automatic blood analyzers have known concentrations of components (eg, electrolytes such as calcium and sodium, antibodies, enzymes, hormones) at regular intervals. A serum sample (hereinafter simply referred to as the control serum) as a sample for analyzing this and managing the data fluctuation of the component and confirming the reliability of the device, the sample component and the reagent react to cause coloration, turbidity or fluorescence reaction. It is necessary to analyze with a device multiple times, such as a serum sample (hereinafter simply referred to as standard serum) as a sample whose component concentration is known to create a calibration curve that converts the change in absorbance that occurs when it is present. The sample to be used is used. Since these samples need to be automatically dispensed and analyzed periodically or when necessary, it is desirable that the samples are always stored in the device and the component concentration does not change due to alteration or evaporation. Therefore, the conventional automatic blood analyzer automatically dispenses the control serum and the standard serum when necessary, and in order to perform the analysis, the control serum,
A dedicated storage for standard serum is provided separately from the storage for other samples to be analyzed, and the controlled serum and standard serum in the dedicated storage are stored at a constant temperature for a long time by a temperature control means such as a cooling device. The change in the component concentration due to alteration or evaporation is prevented.

[0003]

When the sample to be analyzed normally, the control serum and the standard serum are stored in the same storage, the sample to be analyzed normally is stored in the analyzer before and after the analysis. Since it requires work such as moving to a storage location,
Each time the storage is opened and closed, the stored items are frequently exposed to the outside air, making it difficult to maintain a proper storage environment. Therefore, in order to prevent the change of the component concentration due to the alteration or evaporation of the control serum and the standard serum, it is necessary to provide a dedicated storage separate from the normally analyzed sample. Furthermore, in order to keep the storage environment of the control serum and the standard serum constant, it was necessary to adjust the temperature inside the storage cabinet, and therefore it was necessary to provide a temperature control means such as a cooling device. Therefore, conventionally, in order to automatically dispense and analyze the control serum and the standard serum when necessary, it is necessary to provide the automatic blood analyzer with a dedicated storage for the control serum and the standard serum and a temperature control means. If the automatic blood analyzer is provided with a portion, there are problems that the external dimensions of the device are increased, the power consumption is increased, and the manufacturing cost is increased.

The present invention is proposed in order to solve the above-mentioned problems, and when the control serum and the standard serum are automatically dispensed and analyzed when necessary, without providing a dedicated control serum and standard serum storage, It is an object of the present invention to provide an inexpensive automatic blood analyzer capable of maintaining a controlled serum and a standard serum in an appropriate state by using an existing reagent storage and performing a required automatic blood analysis.

[0005]

According to the present invention, there is provided a sample transfer section which holds a sample container for containing a sample and transfers the sample container to a sample suction position by a sample transfer mechanism, and a substance to be measured in the sample added to the sample. Corresponding to the above, a reagent container for holding a reagent for causing a predetermined reaction is held on a single circle or on a concentric circle, and a reagent table for moving the reagent container to a reagent suction position by a reagent container transfer mechanism is stored and the alteration of the reagent And a reagent storage for preventing concentration due to evaporation of the reagent, a reaction container transfer unit for holding the reaction container for mixing and reacting the sample and the reagent and transferring the reaction container to the sample discharge position by the reaction container transfer mechanism, In the automatic blood analyzer for analyzing blood components equipped with a sample dispenser that is transferred from the sample suction position to the sample discharge position by the injector drive mechanism, the reagent storage The reagent container held on the table and the reagent in the reagent container are stored in an appropriate environmental state, and are held so as not to be affected by the rotation operation of the reagent table, and the sample table, the reagent storage, and the reaction container transfer unit are stored. A sample in a sample container held in the sample transfer unit and / or a sample in a sample container held in a reagent storage, is sucked into the reaction container held in the reaction container transfer unit. And / or a first sample dispenser for discharging the reagent is provided, at a position close to the reagent storage and the reaction container transfer section, and at a position that does not hinder the operation of the first sample dispenser.
The automatic blood analyzer is provided with a reagent dispenser for sucking a reagent in a reagent container held in a reagent table in a reagent storage and discharging the reagent into a reaction container held in a reaction container transfer section. Further, the reagent storage has reagent containers arranged along the circumference of the reagent table, and sample containers arranged on the inner concentric circles of the reagent table, the reagent container and the reagent in the reagent container, the sample container and the sample container. It is an automatic blood analyzer formed so as to store a sample therein in an appropriate environmental condition. The reagent storage is provided to store the reagent container held in the reagent table and the reagent in the reagent container in an appropriate state and to be independent of the reagent table so as not to be affected by the rotation of the reagent table. And a sample container held in a sample table and an automatic blood analyzer formed so as to store a sample in the sample container in an appropriate state.

[0006]

As described above, since the sample container for storing the control serum and the standard serum in the reagent storage container capable of storing the reagent in the proper state is stored in the proper state, the control serum,
There is no need to provide a sample storage for exclusive use of standard serum. In addition, by holding the sample container containing the control serum and the standard serum so as not to interfere with the rotation of the reagent table,
The sample suction operation can be performed without being hindered by the rotation operation of the reagent table. Further, since the first sample dispenser can dispense the sample to be normally analyzed and the control serum and the standard serum at any time, it can dispense the control serum and the standard serum without disturbing the reagent dispensing operation. When an injection is required, it can be dispensed and analyzed at any time in place of the normally analyzed sample. Further, since the sample dispenser and the reagent dispenser can operate without interfering with each other, the sample dispense and the reagent dispense can be smoothly performed. Further, since a sample container for containing the control serum and the standard serum can be arranged on the circumference of the reagent storage, a large number of control serum containers and standard serum containers can be used.

[0007]

1 shows a first embodiment of the present invention and is a partial plan view of the apparatus. A plurality of reaction vessels 2 are held at equal intervals along the circumference of the reaction vessel table 1. Reaction container table 1 as this reaction container transfer unit
Is rotated in the arrow direction (forward / reverse direction) by a table transfer mechanism (not shown), and the reaction container 2 can be sequentially transferred to the sample discharge position 2-1. Further, a sample container table 3 as a sample transfer unit is arranged near the reaction container table 1, and a plurality of sample containers 4 are held at equal intervals along the circumference of the sample container table 3. There is. And the sample container table 3
Is rotated in the arrow direction (forward / reverse direction) by a table transfer mechanism (not shown) to move the sample container to the sample suction position 4
-1 can be sequentially transferred. The reaction container table may be combined with a constant temperature mechanism (not shown) (for example, a water bath system, a warm air system, etc.) so that the liquid in each reaction container 2 can reach a reaction temperature (for example, 20 to
The temperature is kept constant at 37 ° C.

A reagent storage 5 is disposed at a position facing the reaction container table 1 and the sample container table 3 in the plane direction. The reagent storage 5 has a space formed therein so that it can be isolated from the outside air, and the temperature in the space is constant (for example, 0 to 15 ° C., preferably 4 ± 6 ° C.) by a cooling device (temperature adjusting means) not shown. The temperature is maintained at 3 ° C. Further, the reagent storage 5 is provided with a ring-shaped reagent table 6, and a plurality of reagent containers 7 are provided in the reagent table 6.
Is held. Then, the reagent table 6 can be rotated in the arrow directions (forward and reverse directions) by a table transfer mechanism (not shown) to sequentially transfer the reagent container 7 to the reagent dispensing position 7-1. ing. Further, although the controlled serum container 8 and the standard serum container 9 are held in the empty space of the reagent storage 5, the controlled serum container 8 and the standard serum container 9 are rotated by the reagent table 6
It is held at a position that does not hinder the transfer of the reagent container 7 inside. The above-mentioned reagents are added to a sample to cause a predetermined reaction in response to a measurement target substance in the sample, and the reaction components necessary for one or more reactions depending on the measurement principle. Contains. The reagent storage 5 stores the reagent and the reagent container at a constant temperature in order to prevent the deterioration of the reagent and prevents the deterioration of the reagent due to high temperature and the concentration of the reagent due to evaporation. Here, the reagent storage 5 may be temperature-controlled by an appropriate temperature sensor, and may be humidity-controlled if necessary.

A sample dispenser 11 driven by a sample dispenser drive mechanism 10 is provided in the vicinity of the plane where the reaction container table 1, the sample container table 3, and the reagent storage 5 are arranged. There is. The sample dispenser 11 moves so that its tip draws a locus of a one-dot chain line X, and passes through the sample suction position 4-1, the sample discharge position 2-1, the control serum container 8 position and the standard serum container 9 position. You can do it. Therefore, the sample dispenser 11 has the sample suction position 4-1.
The sample can be aspirated and ejected at the sample ejection position 2-1. Further, the sample can be aspirated at the control serum container 8 position and the standard serum container 9 position and ejected at the sample ejection position 2-1. A reagent dispenser 13 driven by a reagent dispenser drive mechanism 12 is provided at a position facing the reaction container table 1 and the reagent storage 5 in the plane direction. The reagent dispenser 13 moves so that its tip draws a locus of a one-dot chain line Y, so that the reagent sucked at the reagent dispensing position 7-1 can be discharged at the reagent discharging position 2-2. There is.

By the way, a reagent storage lid (not shown) is arranged on the upper portion of the reagent storage 5, and there are a standard serum and a control serum suction port (not shown) as well as a reagent suction port (not shown). Further, a shutter (not shown) for controlling the opening and closing of the nozzle is provided, and the nozzles of the sample dispenser 11 and the reagent dispenser 13 are used as the control serum container 8 and the standard serum container 9 of the reagent storage 5. , Reagent container 7
When a sample and a reagent therein are sucked, the shutter is opened according to the lowering of the nozzle to the upper surface of the reagent storage 5, so that the nozzle can enter the reagent storage 5.

Next, the operation of the present embodiment configured as described above will be described. When performing a normal analysis, the sample container table 3 is rotated and the sample suction of the sample containers 4 held therein is carried out. The reaction in which the sample in the sample container 4 located at the position 4-1 is aspirated by the sample dispenser 11 which is rotatably transferred onto the sample container 4 and which is located at the sample discharge position 2-1 of the reaction container table 1. The container 2 is discharged and analyzed. Regarding the analysis method, there are various methods such as applying light from a light source to an absorption cell and detecting the amount of transmitted light, but the description thereof is omitted here. When it is necessary to suck the control serum or the standard serum, the sample dispenser 11 is rotated to suck the sample from the control serum container 8 or the standard serum container 9 held in the reagent storage 5. , Reaction vessel table 1
The sample is discharged to the reaction container 2 located at the sample discharge position 2-1. At the same time, even when the reagent dispenser 13 performs the operation of discharging the reagent sucked from the reagent container 7 at the reagent dispensing position 7-1 to the reaction container 2 at the reagent discharging position 2-2, as shown in FIG. Rotation and suction of the dispenser 11 and the reagent dispenser 13,
Since the ejection operations do not interfere with each other, the sample dispenser 11 and the reagent dispenser 13 can operate smoothly.

As described above, according to the present embodiment, it is not necessary to provide a dedicated storage for the control serum and the standard serum, or to provide a temperature control means for the dedicated storage, so that the apparatus configuration can be made large and complicated. This can be avoided, and the cost of the device can be reduced and the operating cost of the device can be reduced. And control serum,
The standard serum can be analyzed at any time, and proper automatic blood analysis can be performed.

FIG. 2 shows a second embodiment of the present invention and is a partial plan view similar to FIG. Parts corresponding to those in FIG. 1 are designated by the same reference numerals (the same applies to the following embodiments). In this embodiment, a sample rack transfer mechanism 14 is used instead of the sample container table 3 in the first embodiment. The sample rack transfer mechanism 14 transfers a sample rack 15 from a storage space 16 in which a plurality of rows of sample racks 15 holding sample containers 4 are stored as shown in the figure.
The sample containers 4 are moved one by one via the 6a, the sample containers 4 are positioned at the sample discharge positions 4-1, and the sample is dispensed by the sample dispenser 11 and discharged into the reaction container 2 of the reaction container table 1. ing. In addition, the sample rack 1 that has passed through the transfer route 16
5 is sent to the rack receiving space 17. Other configurations are similar to those of the first embodiment. As described above, according to the present embodiment, in addition to the same effects as the first embodiment, the sample rack transfer mechanism 14 enables batch processing of a large amount of samples.

FIG. 3 shows a third embodiment of the present invention and is a partial plan view similar to FIG. In this embodiment, the configuration of the reagent table 6 of the reagent storage 5 in the first embodiment is changed. In the reagent table 18 of the present embodiment, the control serum container 8 and the standard serum container 9 are held inside the concentric circle, and the reagent container 7 is held on the outer circumference of the concentric circle. The reagent transfer mechanism (not shown) simultaneously manages the reagent container 7. The serum container 8 and the standard serum container 9 are also transferred. When analyzing the control serum and standard serum, the reagent table 18 is rotated to transfer the control serum container 8 and the standard serum container 9 containing the sample requiring measurement to the sample suction position 19. . Other configurations are similar to those of the first embodiment. As described above, according to the present embodiment, in addition to having the same effect as the first embodiment, the control serum container 8 and the standard serum container 9 can be arranged on the reagent table 18 in a circumferential shape.
It is possible to use more control serum containers 8 and standard serum containers 9.

FIG. 4 shows a fourth embodiment of the present invention and is a partial plan view similar to FIG. In this embodiment, the reagent container 7, the control serum container 8 and the standard serum container 9 are arranged in the same manner as the second embodiment, but the reagent table 18a holding the reagent container 7 is formed in a ring shape, and the control serum container 8 is formed. The sample table 18b for arranging the standard serum containers 9 is formed in a circular shape and provided independently inside the reagent table 18a, and each table can be independently rotated by a reagent transfer mechanism (not shown). Is done. When analyzing the control serum and the standard serum, the sample table 18b is used.
Is rotated to transfer the control serum container 8 and the standard serum container 9 containing the sample requiring measurement to the sample suction position 19. Other configurations are similar to those of the first embodiment. As described above, according to this embodiment, in addition to the same effects as the first embodiment, the control serum container 8 and the standard serum container 9 can be circumferentially arranged on the reagent table 18 as in the second embodiment. It is possible to use more control serum containers 8 and standard serum containers 9. Further, since the reagent table 18a and the sample table 18b can be independently rotated, the analysis operation can be performed without mutual influence.

FIG. 5 shows a fifth embodiment of the present invention and is a partial plan view similar to FIG. In the present embodiment, the sample container table 3 is configured to rotate concentrically around the reagent storage 5. Although the sample containers 4 on the sample container table 3 are shown in one row in the drawing, they may be arranged in two or more rows. The sample dispenser 11 driven by the sample dispenser drive mechanism 10 has a sample suction position 4-
1, the reagent dispensing position 7-1 and the sample suction position 19 are moved to perform the suction operation, and the sample discharge position 2-1 performs the discharge operation. Other configurations are similar to those of the first embodiment. According to the present embodiment, in addition to having the same effect as the first embodiment, the sample container table 3 and the reagent storage 5 are not arranged in independent spaces, so that the apparatus can be further downsized. Further, the operating range of the sample dispenser 11 is reduced, and the operating cost can be reduced. It should be noted that the present invention is not limited to the above-described embodiments, and various modifications can be made. For example, in the above-mentioned embodiment, the sample dispenser is a rotary type, but if the sample container is arranged so as to intersect the control serum or standard serum container and the reaction container on a straight line, the sample dispenser will be linear. It is configured to move in a linear trajectory.

[0017]

As described above, according to the present invention, the sample container for storing the control serum and the standard serum in the reagent storage chamber capable of storing the reagent in the proper state is stored in the proper state. There is no need to provide a dedicated storage for serum and standard serum. Therefore, since the sample can be stored using the empty space in the reagent storage, it is not necessary to provide a dedicated sample storage for the control serum and the standard serum or a temperature control means for the dedicated storage Larger configuration,
It is possible to avoid complication and reduce the cost of the device. Then, the control serum and the standard serum can be analyzed at any time, and proper automatic blood analysis can be performed. Further, by holding the sample container containing the control serum and the standard serum so as not to interfere with the rotational movement of the reagent container table, it is possible to perform the sample suction operation without being hindered by the rotational operation of the reagent container table. In addition, since the sample dispenser can dispense the sample to be analyzed normally and the control serum and standard serum at any time, if the management serum and standard serum need to be dispensed, the analysis will be performed normally. It can be dispensed and analyzed at any time instead of the sample. Further, since the sample dispenser and the reagent dispenser can operate without being affected by each other, the sample dispense and the reagent dispense can be smoothly performed. Further, a large number of control serum containers and standard serum containers can be used by arranging the sample containers containing the control serum and standard serum in an arc shape in the reagent storage.

[Brief description of drawings]

FIG. 1 is a partial plan view of an apparatus according to a first embodiment of the present invention.

FIG. 2 is a partial plan view of an apparatus according to a second embodiment of the present invention.

FIG. 3 is a partial plan view of an apparatus according to a third embodiment of the present invention.

FIG. 4 is a partial plan view of an apparatus according to a fourth embodiment of the present invention.

FIG. 5 is a partial plan view of an apparatus according to a fifth embodiment of the present invention.

[Explanation of symbols]

 1 Reaction Container Table 2 Reaction Container 2-1 Sample Discharge Position 2-2 Reagent Discharge Position 3 Sample Container Table 4 Sample Container 4-1 Sample Suction Position 5 Reagent Storage 6 Reagent Table 7 Reagent Container 7-1 Reagent Suction Position 8 Management Serum container 9 Standard serum container 10 Specimen dispenser drive mechanism 11 Specimen dispenser 12 Reagent dispenser drive mechanism 13 Reagent dispenser X locus Y locus

Claims (3)

[Claims] 1. A sample transfer section which holds a sample container for holding a sample and transfers the sample container to a sample suction position by a sample transfer mechanism; and a predetermined reaction which is added to the sample and corresponds to a target substance to be measured in the sample. The reagent container that holds the reagent to be generated is held on a single circle or on a concentric circle, and the reagent table that moves the reagent container to the reagent suction position by the reagent container transfer mechanism is stored and the deterioration of the reagent and the concentration due to evaporation of the reagent are prevented. A reagent storage, a reaction container transfer unit that holds a reaction container for mixing and reacting a sample and a reagent, and transfers the reaction container to a sample discharge position by a reaction container transfer mechanism, and a sample suction position by a sample dispenser drive mechanism In the automatic blood analyzer for analyzing blood components equipped with the sample dispenser that is transferred from the sample to the sample discharge position, the reagent storage is stored in the reagent table. The container and the reagent in this reagent container are stored in an appropriate environmental condition, and they are held so that they are not affected by the rotation operation of the reagent table, and the sample is placed near the sample table, reagent storage, and reaction container transfer section. Aspirate the sample in the sample container held in the transfer section and / or the sample in the sample container held in the reagent storage,
The sample and / or
Alternatively, the first sample dispenser for discharging the reagent is provided, and the first sample dispenser in the reagent store is located at a position close to the reagent store and the reaction container transfer section and does not hinder the operation of the first sample dispenser. An automatic blood analyzer, comprising a reagent dispenser for sucking a reagent in a reagent container held in a reagent table and discharging the reagent into a reaction container held in a reaction container transfer section. 2. The reagent storage has reagent containers arranged along the circumference of a reagent table, sample containers arranged concentrically inside the reagent table, and the reagent container, the reagent in the reagent container, and the sample container. 2. The automatic blood analyzer according to claim 1, which is formed so as to store the sample in the sample container in an appropriate environmental condition. 3. The reagent storage stores the reagent container held in the reagent table and the reagent in the reagent container in an appropriate state and is independent of the reagent table and is not affected by the rotational movement of the reagent table. The automatic blood analyzer according to claim 1, wherein the sample container held in the sample table provided in the sample container and the sample in the sample container are stored in an appropriate state.