JPH03162672A - Sample dispenser for automatic analysis apparatus - Google Patents

Abstract

PURPOSE:To allow the reading of the sample information of sample tubes even during the operation of a sample suction mechanism or the operation of a turn table by independently rotationally driving the turn table mounted with the plural sample tubes and a sample information reader. CONSTITUTION:The turn table 2 is attached to a revolving shaft 4 so that the turn table can be rotationally driven by a motor 8. A bar code reader is disposed as the sample information reader 22 on the outer periphery of the turn table 2. The sample tubes 20-1, 20-2 are, for example, vacuum blood taking tubes and patient numbers are displayed as the sample information by bar codes on the outer periphery of these tubes. The reader 22 reads the sample information of the sample tubes 20-1, 20-2 if the sample tubes 20-1, 20-2 are placed on the sample positions of the turn table 2 and the reader 22 is operated after a work sheet is charged. This reading operation is possible even while the turn table 2 is held stopped or under operation. The sample information is thus read regardless of the operation of the turn table 2 even if there are the additional sample tubes.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an apparatus for dispensing a sample to an analyzer in an automatic analyzer that automatically analyzes a blood sample or the like.

(Prior art) As an example of a sample dispensing device for an automatic analyzer, a sample tube such as a vacuum blood collection tube is arranged on the circumference of a turntable, and sample information such as a patient number is written on the sample tube using a bar code, for example. A barcode reader is placed on the inner or outer circumference of the turntable, and the sample information is read when the sample tube passes the reading position of the barcode reader as the turntable rotates. There is a dispensing device. (Problem to be solved by the invention) In the sample dispensing device described above, the reading device such as the barcode reader is fixed, so the sample information cannot be read while the turntable on which the sample tube is placed is stopped. . Therefore, for example, it is not possible to read sample information during analysis or sample information for reconfirming the sample.

Therefore, the present invention can be used not only while the turntable is moving, but also when the turntable is moving.
The purpose of this invention is to provide a sample dispensing device that makes it possible to read the sample information on the sample tube even when the turntable is stopped, thereby making it possible to reconfirm the sample. .

(Means for Solving the Problems) In the present invention, a sample information reading device for reading sample information of sample tubes is movably supported along the outer periphery or inner periphery of a turntable on which a plurality of sample tubes are placed. The turntable and the sample information reading device are rotated independently of each other.

In a preferred embodiment of the present invention, a plurality of sample tubes are arranged in two or more concentric rows on the turntable, and the rows of sample tubes are arranged on the outer circumference side or the inner circumference side of the turntable. The sample tubes are arranged so that their positions are shifted from each other so that the sample information reading device can read the sample information of the sample tubes in the rear row from the gap between the sample tubes in the front row.

(Function) Place the sample tubes at each sample position on the turntable. Sample information is displayed on the outer or inner periphery of the turntable using, for example, a bar code.

After inputting the worksheet, when a sample information reading device such as a barcode reader is operated, the sample information reading device reads the sample information of the sample tube placed on the turntable. Reading operations can be performed even if the turntable is stopped.
This can be done even during operation. Therefore, even if there is an additional sample tube, the reading device will independently read the sample information regardless of the operation of the turntable.

When sample tubes are placed in two or more rows on the turntable, sample information can be read only from the outer sample tubes, or only from the inner sample tubes. You can also read the outer circumferential side and the inner circumferential side alternately.

(Example) The first construction drawing is a sectional view showing one example, and FIG. 2 is a plan view showing the arrangement of sample tubes on the turntable in the same example.

2 is a turntable, which is attached to a rotating shaft 4 and rotates. A motor 8 is fixed to the support plate 6 to rotate the rotating shaft 4, and the rotating shaft of the motor 8 and the rotating shaft 4 of the turntable 2 are connected by pulleys 10, 12 and a belt 14.

The turntable 2 includes an upper plate 16 having a hole for positioning a sample tube and a lower plate 18 supporting the lower end of the sample tube. Holes for positioning the sample tubes are drilled on the outer circumference and the inner circumference of the upper plate work 6, respectively, and the positions of these holes are spaced apart from each other on the outer circumference.
0-1, and the sample tube 20-2 is positioned at a different radial angle on the inner circumference from the position of the sample tube 20-1 on the outer circumference. It is provided. For example, a vacuum blood collection tube is used as the sample tube 20-1, 20-2. Sample tube 20-1.20-
On the outer periphery of each sample, a patient number is displayed as sample information using a bar code.

A barcode reader 22 is arranged on the outer periphery of the turntable 2 as a sample information reading device.

The barcode reader 22 is attached to a sleeve 24 provided so as to surround the rotating shaft 4 of the turntable 2. The sleeve 24 is rotatably supported by a bearing on the support plate 6, and the barcode reader 22 can move on the circumference around the rotation axis 4 independently of the rotation axis 4. In order to rotate the barcode reader 22 via the sleeve 24, a motor 26 is fixed to the support plate 6, and a pulley is connected between the rotating shaft of the motor 26 and the sleeve 24.
28.30 and is connected by a belt 32. Although not shown, a sample dispensing mechanism is provided to aspirate the sample from the sample tube positioned at the sample suction position by the turntable 2 and dispense it to the analyzer. 34 is a cover that is opened and closed when the sample tubes 20-1 and 20-2 are attached to or removed from the turntable 2.

The parking of the motors 8 and 26 and the barcode reading operation of the sample tubes 20-1 and 20-2 by the barcode reader 22 are as follows:
All are controlled by a microcomputer (shown @8).

Rotating shaft 4, motor 8, 26, pulley 10, ↓2I2
8.30, the belts 14, 32, the sleeve 24, and the microcomputer constitute a drive mechanism for the turntable 2 and the barcode reader 22.

The movement range of the barcode reader 22 represents the range for reading sample tubes, and this range can be freely designated as necessary. For example, in Figure 2, the turntable is indicated by arrow 3.
6, and the barcode reader 22 is rotated between the sample suction position (the position of sample tube B in FIG. 2) and the sample tube C.
If you specify that the barcode be read while moving within the range of positions, you have specified that the barcode of the sample tube being measured and the sample tube to be measured are to be read. Also, for example, you can specify to read the barcodes of one sample tube before and after the sample suction position, or for example, two sample tubes before and after the sample suction position.
You can also specify that the barcode be read by moving within a range of 5 degrees. Also, for example, sample tube A → B-+
You can also specify that the sample tubes on the outer circumference and the sample tubes on the inner circumference are read alternately, such as sample tube A→C.
It is possible to specify that only the sample tubes on the outer circumference side be read, such as C, or conversely, it is also possible to specify that only the sample tubes on the inner circumference side be read.

The barcode can be read in either the rotational direction of the turntable 2 or the opposite direction.

Next, the operation of this embodiment will be explained.

Sample tube 20-1 with barcode attached to turntable 2
and set 20-2. When the start key is pressed, turntable 2 rotates, moves the sample tube to the sample suction position, and
Prepare for suction. The barcode reader 22 moves back and forth, for example, by 25 degrees around the sample suction position, and reads the barcode twice, for example. If you add or replace a sample, either change the operating range of the barcode reader 22 or rotate the turntable 2 within the time allowed to read the barcode on the appropriately set sample tube. Bye.

3 and 4 represent other embodiments.

This embodiment differs from the embodiment shown in FIG. 1 in that the barcode reader 22 is arranged inside the array of sample tubes 20-1 and 20-2. Therefore, the sample tube 20 on the inner circumference
Sample tube 20-1 on the inner circumference so that the barcode of sample tube 20-1 on the outer circumference can be read from the inside of the arrangement of -2.
Set the arrays so that they are spaced apart from each other.

(Effects of the Invention) In the present invention, the sample information reading device such as a barcode reader can be moved independently of the turntable.
Even if the sample suction mechanism of the analyzer is in operation or the turntable is in operation, sample information on the sample tube can be read. Therefore, it is now possible to read the sample information again to confirm the dispensed sample, and to read the sample information not only from the radial direction of the turntable but also from a direction away from the radial direction. Increased reliability.

By placing sample tubes concentrically in two or more rows on a turntable, it becomes possible to handle a large number of samples.

[Brief explanation of the drawing]

Fig. 1 is a schematic sectional view showing one embodiment, Fig. 2 is a plan view showing the arrangement of sample tubes in the same embodiment, Fig. 3 is a schematic sectional view showing another embodiment, and Fig. 4 is a schematic sectional view showing the same embodiment. FIG. 3 is a plan view showing an example sample tube arrangement. 2... Turntable, 4... Rotating shaft, 8, 26... Motor, 10, 12, 28, 3
0...Pulley. 14, 32...Belt, 20-1.20-2...Sample tube, 22...
...Barcode reader, 24...Sleeve.

Claims (2)

[Claims] (1) A turntable on which a plurality of sample tubes are placed, a dispensing mechanism that aspirates the sample from the sample tube positioned at a predetermined position by the turntable and dispenses it to the analyzer, and an outer periphery of the turntable. or an automatic analyzer that is movably supported along the inner circumference and includes a sample information reader that reads sample information of a sample tube, and a drive mechanism that rotates the turntable and the sample information reader independently of each other. sample dispensing device. (2) The sample information reading device in which the turntable has a plurality of sample tubes arranged concentrically in two or more rows, and the rows of sample tubes are arranged on the outer circumference side or the inner circumference side of the turntable. 2. The sample dispensing device of an automatic analyzer according to claim 1, wherein the sample dispensing devices of the automatic analyzer according to claim 1 are arranged with their positions shifted from each other so that the sample information of the sample tubes in the rear row can be read from the gap between the sample tubes in the front row. .