JP3274325B2 - Material storage - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a member storage, for example, a member storage storing a large number of reagent bottles each containing various kinds of reagents.

[0002]

2. Description of the Related Art In an automatic analyzer for automatically analyzing the components of a sample such as serum, the components to be measured (measurement items)
It has been practiced to add a reagent that reacts with a sample to a sample, measure its coloration state and the like with an optical measuring means or the like, and determine its component.

[0003] Such automatic analysis requires reagents suitable for the measurement items, and in most cases, requires the number of reagents as many as the number of measurement items. In addition, due to the preservability of the reagents and the pretreatment of the reaction process, etc., the reagents are divided into two or more, and the first reagent is added first during measurement, and then the second reagent is added. In some cases, a plurality of reagents are required for one measurement item. In particular, at present, many measurement items require two reagents.

Further, the number of items that can be measured has been increasing with the progress of measurement technology, and it has been strongly required that an automatic analyzer be able to install as many reagents as possible. That is, there is a demand for an automatic analyzer capable of measuring a wide range of items at any time, and it has become an essential condition to install a large number of reagents.

A conventional automatic analyzer is provided with a specific place called a "reagent storage" for storing reagents. The shape of the reagent storage is various, such as a circular table or a box. The reagent bottles containing the reagents are stored in this reagent storage, and the operator can input the position information and the like from the keyboard or the CRT of the automatic analyzer to determine which measurement item of the reagent is stored in which position. Keep it.

However, as the number of reagents increases, the input of positional information on reagent bottles also becomes a difficult task for the operator. In addition, work such as removing reagent bottles due to lack of reagent is often a daily task, and when returning to the reagent storage, if the position is incorrect, correct measurement results can be obtained. Things that do not happen.

Therefore, recently, a bar code label corresponding to the information (type, lot number, etc.) of the reagent is affixed to the reagent bottle, and the bar code reader provided in the reagent storage reads the bar code label. Even if a reagent bottle is placed at a position, a reagent suitable for a measurement item can be correctly selected and dispensed.

[0008] From the viewpoint of reading the above-mentioned bar code, as shown in FIGS. 4 and 5, the circular movable reagent storage 100 is easy to manufacture because of its simple configuration. The reagent storage 1
00 moves the reagent to the position of a probe (not shown) for sucking the reagent, and carries the target reagent bottle to the probe position by rotating operation.

The movable reagent storage 100 includes a turntable 101 therein, and a partition plate 1 is mounted on the turntable 101.
02, a large number of reagent bottles 10
3 are placed radially. A label 105 on which a barcode 104 is printed is attached to the reagent bottle 103.

A bar code reader 106 for projecting light and reading the reflected light reflected by the bar code 104 is fixedly arranged on the outer periphery of the reagent storage 100. The barcode 104 on the reagent bottle 103 can be read. On the other hand, if the reagent storage is fixed, it is necessary to move the barcode reader itself, which complicates the configuration.

On the other hand, as described above, it is preferable that the number of erection reagents is as large as possible. As a reagent storage meeting such a demand, for example, as shown in FIG. 6, a reagent storage 1 having concentrically arranged rotary tables 111 and 112 for mounting reagents.
Ten are conceivable. In this way, the number of reagents that can be stored can be dramatically increased.

[0012]

However, as is apparent from FIG. 6, it is possible to read the bar code 104 of the reagent bottle 103 placed on the outer turntable 112 by the bar code reader 106. , The bar code 10 of the reagent bottle 103 on the inner turntable 111
Reading 4 is not possible because the outer reagent bottle blocks the light projected by the barcode reader 106.

Accordingly, an object of the present invention is to provide a method for mounting a reagent mounting (detection member arranging means) concentrically on a rotating table for mounting a reagent (for arranging a member to be detected). An object of the present invention is to provide a member storage in which a barcode (identification code) of a placed reagent bottle (detected member) can be read by a barcode reader (code reading means).

[0014]

In order to solve the above-mentioned problems, the present invention provides a plurality of tables in which a bottle with a bar code containing information on reagents can be arranged and arranged concentrically, A driving unit that drives the plurality of tables so as to be independently rotatable, a reading unit that can read a barcode attached to a bottle arranged on the plurality of tables, and the table inside. Having, a movable reagent storage for heat insulation, provided at a position facing the reading means of the movable reagent storage,
A window from which the beam from the reading means can enter and is insulated and provided on the plurality of tables,
A plurality of the bottles can be arranged almost radially in a radial manner, and a partition plate for partitioning the arrangement positions of the bottles, and a cooling means for keeping the inside of the movable reagent storage cool are provided, and among the plurality of tables, At least one of the positions partitioned by the partition plate on at least the outermost table is left open, and the driving unit moves the table so that the open partition position on the table faces the window. The table having the vacant partition position through the window and the vacant partition position by rotating and driving the table inside the table having the vacant partition position by the driving means. Reading the bar code attached to the bottle placed on the table inside the table by the reading means. A.

According to the present invention, for example, when reading a barcode attached to a bottle disposed on the innermost table among a plurality of tables, the barcode on the table located outside the innermost table is read. At least one of the positions partitioned by the partition plate in the above, the table is rotationally driven such that the separated partition position on the table faces the window in the movable reagent storage, and the innermost table is The bar code attached to the bottle placed on the innermost table can be read through the window and the empty partition position by rotating and driving, so it can be installed without requiring a complicated configuration The number of reagents can be increased, and a wide range of items can be measured at any time. Bar code attached to all bottles arranged on Le can be read by one reading means.

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below based on an embodiment shown in the drawings. Note that the same reference numerals are given to the already described portions, and redundant description is omitted. 1 and 2 are plan views of a reagent storage (member storage) of the present embodiment, and FIG. 3 is a block diagram showing an entire configuration of an automatic analyzer to which the reagent storage is applied.

As shown in FIG. 1, the reagent storage 1 comprises first to third rotating tables 2, 3, and 4 in order from the inside in a triple concentric manner.
Are arranged, and each of the turntables 2, 3, and 4 is independently rotatable. The first turntable 2 includes a partition plate 5a,
By partitioning at equal intervals by 5b, 5c, etc., a reagent mounting room is formed, and the reagent bottle 103 can be accommodated in all the rooms.

Similarly, the second turntable 3 is provided with partition plates 6a, 6b,
6c are partitioned at equal intervals to form a reagent mounting room, but the reagent bottle 103 can be accommodated in another room except for one room 3A.
That is, in the room 3A, it is prohibited to store a shield that blocks light projection from the barcode reader 106 onto the barcode of the reagent bottle 103.

Similarly, the third turntable 4 is also provided with partition plates 7a, 7
The reagent mounting chambers are formed at equal intervals by b, 7c,..., and the reagent bottles 103 can be accommodated in other rooms except for one room 4A. . That is, in the room 4A, it is prohibited to store a shield that blocks light projection from the barcode reader 106 onto the barcode of the reagent bottle 103.

When reading the barcode of the innermost reagent bottle 103, the operator inputs the information from an operation panel (not shown). Are stopped at a position facing the barcode reader 106. In this state, there is no object between the barcode reader 106 and the innermost first turntable 2 that obstructs the field of view of the barcode reader 106. The code can be read.

The reagent bottle 103 on the second rotating table 2
When reading the bar code, the operator turns the bar code on the operation panel (not shown). As shown in FIG.
6 is stopped. In this state, since there is no object between the barcode reader 106 and the second turntable 3 that blocks the field of view of the barcode reader 106, the barcode of the reagent bottle 103B on the second turntable 3 cannot be read. Becomes possible.

Next, referring to FIG. 3, an automatic analyzer using the reagent storage (with a double concentric shape) configured as described above will be described. In FIG. 3, reference numeral 11 denotes a sampler on which a sample is placed, wherein a plurality of samples can be set in a container at one time. Twelve sampling arms are provided with a probe 13 for sampling a sample, and the probe 13 is connected via a tube 14 to a pump 15 for sucking and discharging the sample. Reference numeral 16 denotes a reaction tube table. When a row of reaction tubes placed here is sequentially rotated and crosses the optical path of the photometry unit 17, the reaction solution in the reaction tube is measured and converted (calculated) in concentration. .

Reference numerals 18 and 19 denote first and second reagent arms, respectively. Probes 20 and 21 are provided on each arm, and are connected to reagent pumps 22 and 23 by tubes, respectively. The probes 20, 21 and the like are each in the reagent storage 1
A, the reagents placed in 1B (described later) are aspirated,
The reagent is dispensed into a reaction tube on the reaction tube table 16.
Reference numerals 26 and 27 denote stirrer arms that stir the mixture of the sample and the reagent.

The reagent storages 1A and 1B are, as shown in FIG.
This is a reagent storage having a heavy concentric reagent array. 106
Reference numerals A and 106B denote barcode readers installed on the outer edges of the reagent storages 1A and 1B, respectively. Glass windows for reading the bar code readers 106A and 106B are provided on the walls of the reagent storages 1A and 1B in which the reagent bottles (not shown) are accommodated. Beam (projection light) is incident.

Reference numerals 30 and 31 denote partition plates for separating the outer peripheral arrangement and the inner peripheral arrangement of the reagent storages 1A and 1B. Each room is formed by this partition plate. Each partition plate 30, 31
Also, a glass window is provided at a position opposing the barcode readers 106A and 106B. A motor (not shown) is provided, and each reagent array table of each reagent storage 1A, 1B is configured to be independently drivable.

It is the CPU 32 and the interface 33 that drive and control the above-described reagent storage, bar code reader, and the like, and perform a measurement operation based on an instruction from the console 34 (described below). Is calculated, a density value is calculated based on the data obtained from the photometry unit 17, and printing or the like is performed by the output device 35.

The console 28 receives parameters required for measurement. This parameter is sampler 1
Instructions on which items to measure the sample placed on 6,
Information such as a measurement wavelength and a sampling amount. These pieces of information are stored in the storage device 36, and are referred to by the CPU unit 32 when necessary.

When the above-mentioned information input is completed, an instruction to start measurement is also instructed from the console unit 34. Upon receiving the measurement start instruction, the CPU section 32 controls each measurement operation device and performs sampling of the sample. Before that, the reagents necessary for the measurement are placed in any of the reagent storages 1A and 1B. Perform an operation to check whether the

This operation will be described with reference to the operation of the first reagent storage 1A. First, the tables on the inner and outer peripheries of the reagent storage 1A are respectively moved to the origin positions (specified appropriately). Then, the barcode reader 106A is operated to rotate only the outer peripheral table of the first reagent storage 1A. Barcode reader 106
In A, the bar code label of the reagent on the outer peripheral table can be seen through the reading window.
The data is transferred to the U unit 32. Since the CPU unit 32 confirms the data from the barcode reader 106A while controlling which room of the reagent storage 1A is at the readable position, the contents of the barcode of the reagent in each room are determined.

Therefore, it is possible to determine from the contents of the label which reagent of which measurement item is in which room, and the reagent information is recorded in the storage unit 36. The reading on the outer peripheral side is completed when one round has been completed.

Next, reading on the inner peripheral side is performed. First, the reading space portion (reading space) S of the outer peripheral table is rotated and moved to a position facing the barcode reader 106A. This movement amount is stored in the storage unit 3 as in the case of the outer peripheral side.
6 is stored as reagent information. Then, the barcode reader 106A is operated to rotate and drive the reagent array table on the inner peripheral side of the first reagent storage 1A, while the barcode attached to the reagent bottle arranged on the reagent array table on the inner peripheral side is rotated. The contents are read via the reading space (reading space) of the outer peripheral table, and the data is transferred to the CPU 32. The CPU unit 32 checks the data read by the barcode reader 106A while controlling which room of the reagent storage 1A is in a readable position, and determines the contents of the reagent bottle for each room.

With the above operation, the reading of the bar code of the reagent in the first reagent storage 1A is completed. By performing the same operation for the barcode of the reagent in the second reagent storage 1B, all the reagent barcodes can be read. In this way, the position information and the type information of the reagent are found, and the measurement of the sample on the ordinary sampler may be started. By doing so, the barcodes attached to all the reagent bottles can be read using one barcode reader with as many reagent bottles as possible placed in a double concentric reagent storage. Therefore, since a large number of reagent array tables can be arranged concentrically, the number of reagents that can be stored can be dramatically increased, and information on all stored reagents can be grasped without increasing the number of barcode readers. Here, the reagent storage is described as having a double concentric shape, but the reagent array table which can be independently driven is further added in multiple concentric shapes, and the number of reagents is further increased simply by providing a reading space as described above. The information on all the reagents can be grasped while the reagent bottles are stored in the reagent array table.

Generally, it is necessary to keep the reagent cool (eg, at 10 ° C. or less), and the reagent storage is provided with a cool function. The cool keeping means includes a means for supplying cool air from a refrigerator, a means using a Peltier element, and the like. In order to keep the cold efficiently, it is preferable to insert a heat insulating material or to house the reagent bottles as densely as possible.

In the present embodiment, the case where one bar code reader and one reading space are provided is described. However, two or more bar code readers may be provided. In this way, even when a large number of reagent bottles are arranged on the same rotary table, it is possible to read information of desired reagent bottles within a short time.
Reading becomes possible. Further, in the present embodiment, the case of the reagent storage for storing the reagent bottle has been described, but it is needless to say that the member to be stored is not limited to the reagent bottle.

[0035]

As described above, according to the present invention,
The number of reagents that can be installed can be increased without the need for a complicated configuration, and a wide range of items can be measured at any time.In addition, all bottles placed on multiple concentric tables while cooling reagents efficiently can be used. The attached bar code can be read by one reading unit.

[Brief description of the drawings]

FIG. 1 is a plan view of a main part of an embodiment of the present invention, in which a bar code of a reagent bottle on an innermost rotating table is read.

FIG. 2 is a plan view of a main part of the embodiment, showing a case where a bar code on an intermediate turntable is read.

FIG. 3 is a system configuration diagram when the present invention is applied to an automatic analyzer.

FIG. 4 is a perspective view of a conventional reagent storage.

FIG. 5 is a plan view of the conventional reagent storage.

FIG. 6 is a plan view of a simple improvement plan of the conventional reagent storage.

[Description of Signs] 1 Reagent storage (member storage) 2 Innermost turntable (detected member arrangement means) 3 Intermediate turntable (detected member arrangement means) 3A Room (reading space) 4 Rotation of outermost circumference Table (detected member arrangement means) 4A Room (reading space) 103 Reagent bottle (detected member) 106 Barcode reader (code reading means)

──────────────────────────────────────────────────続 き Continued on front page (58) Field surveyed (Int.Cl. ⁷ , DB name) G01N 35/02 G06K 7/10

Claims (1)

(57) [Claims] A plurality of tables concentrically arranged with a bar-coded bottle containing information on reagents can be arranged, and the plurality of tables can be independently driven to rotate. A driving means for driving; a reading means capable of reading a barcode attached to a bottle disposed on the plurality of tables; a movable reagent storage having the table therein for heat insulation; and a movable reagent storage. A window provided at a position facing the reading means of the reagent storage, and capable of receiving a beam from the reading means and for heat insulation, provided on the plurality of tables, and substantially densely closing the plurality of bottles A partition plate for radially disposing the bottles, and a partition plate for partitioning the bottles from each other, and a cooling means for keeping the inside of the movable reagent storage cool; That is, at least one of the positions partitioned by the partition plate on the outermost table is left open, and the driving means is arranged so that the open partition position on the table faces the window. By rotating the table and driving the table inside the table with the empty partition position by the driving means, the empty partition position of the empty partition position is passed through the window and the empty partition position. A member storage, wherein a bar code attached to a bottle disposed on a table inside a certain table is read by the reading means.