DD96586B1 - DEVICE FOR THE OPTICAL-ELECTRONIC IDENTIFICATION OF SAMPLES - Google Patents

Description

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B device for the optical-electronic identification of samples

International Patent Classification: G об K - 7 / lo

G 06 M - 1/272 G oil N - l / oo

Field of application of the invention:

The invention relates to a device for the optoelectronic identification of samples to be analyzed in an analytical measuring device, contained in sample containers of magazines. The identification of the samples is necessary in order to be able to assign the correct measurement result to each sample or the point issuing the test object.

Characteristic of the known technical solutions:

In a known device ("Multi-Channel З00", Vickers Ltd. · Medical Engineering, 1971)

for colorimetric analysis with optical-electronic identification, the sample to be examined is placed in a disposable cuvette. This cuvette consists of a translucent material and is clad on both its front sides with a foil on which a decadal number system is printed. On the one hand, for example, the number of a patient is stamped in the number system, on the other hand, the number of the client such. a hospital or a ward.

The cuvettes are then inserted into special magazines and entered into the main control section of the automatic analyzer. During the passage through the automatic analyzer, the cuvettes are led one by one past a light source. "The light incident on the side of the cuvette strikes the system of light receivers, which controls the part of the printing unit, through the apertures of the lining foil punched into the number system. Thus 13t the information of the sample identification stored in the automatic analyzer and is printed after the presence of the measurement result with this in an orderly form on a registration strip. This solution requires a characteristic of positive identification devices high design and technological effort. The high technological effort is essential due to the fact that every measurement made boi an identification of the cuvette v / ground must

and each cuvette can be used only once. Object of the invention:

The invention has the purpose to reduce the design and technological effort for sample identification.

Explanation of the essence of the invention:

The invention had the object of providing a device for complex optical-electronic identification of samples to create.

To solve this problem, the following known elements were used: a device for the stepwise transport of sample containers arranged in groups and arranged in magazines through a scanning zone, a device for scanning coded identification signs and a display circuit of the decoded identification signs. According to the invention, the magazines are provided with code markings. The scanning device consists of a light pulse source and a number of light receivers corresponding to the number of code marks used, which are connected to the display circuit. It is provided with a standing in connection with the display circuit pedometer, which is connected on the input side to the transport device and the output side to the light pulse source.

In expedient embodiments, it is further provided: In a first variant, the code marks are formed as openings or grooves passing through the magazines. According to a second variant, the code marks are recesses incorporated in the magazines and lined with a reflective layer. The light pulse source includes a rod-shaped electronic flash tube.

Embodiment:

In the accompanying drawing show:

Fig. 1 is a schematic representation of the device Fig. 2 is a magazine of the device in a perspective view.

The device chosen as an exemplary embodiment is part of the sample input unit of an automatic analyzer, not shown. The sample input unit is designed as a rectangular sample storage with an input tray 1 for the magazines 2, a transport device 3 for the stepwise transport of the magazines 2 in a longitudinal feed path 4 and an output shaft 5. In the middle of the feed path 4 is the scanning zone 6. In the scanning device is arranged: On one side of the channel-shaped scanning zone 6 a Lichtimpuls - source 7 and on the opposite side light receiver 8. For the transport aer Magazine 2 in the output

Well 5, a feed unit 9 is provided. For the advancement of the magazine 2 in the input shaft 1, a jig Io is determined. The light receivers 8 are connected to a display circuit 11, to which a printing unit 12 is connected. The printing unit 12 has as a second input a measured value input 13 for the analysis results. The transport device 3 is connected to the input of a step counter 14. The step counter 14 is linked to the display circuit 11 with a first output and to the light pulse source 7 via a second output. The magazines 2 have optically abtactbare code marks 15 of the magazine mark, which is applied in numerical form as a magazine number 16 on the magazines 2. In the present embodiment, the code marks 15 have the shape of grooves. Passageways could serve the same purpose. If the light receivers 8 are arranged on the same side as the light pulse source 7, the code marks 15 are made as recesses lined with a reflective layer. If the magazine code is binary coded, the code marks 15 in the exemplary embodiment represent the binary digit "1".

The light receivers 8 contain so many receiver elements, ζ · Β · photodiodes as Kodezaarkierungen 15 are present on the magazine 2

The light pulse source 7 is designed as a rod-shaped electronic flash tube with a corresponding electronic pulse circuit »

The magazines 2 are rectangular and have ten receiving holes 18 for the sample containers. Each receiving bore 18 is marked with a position number 19 from zero to nine. These form the one-place, while the magazine number 17 forms the tens and hundreds of sample numbers *

The magazines 2 have recesses 19 into which a pawl of the transport device 3 engages. The facility works as follows:

At the beginning of operation, the input tray 1 is equipped with a corresponding number of magazines 2. During operation, it is possible to add more magazines 2 continuously. With the start of the device, the display circuit including the step counter 14 is set to zero. The zero setting of the step counter 14 triggers a light flash of the light pulse source 7 which, since there is initially no magazine 2 in the scanning zone 6, illuminates all the photodiodes. There is thus no change in the display circuit 11. The transport device triggered simultaneously with the start now moves the rear magazine 2 stepwise in the direction shown. In this case, each step is registered by the step counter 14 because the step counter 14 operates decadically and the spatial arrangement of the scanning zone 6 designed this way

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is that after ten steps, the magazine 2 is located exactly in the scanning zone 6, when the pedometer by its transition from nine to zero triggers another flash of light, the light only by the corresponding code of the magazine 2 provided grooves of the code marks 15th Now, in the case of further transport steps, the single digit is added by the step counter 14 until the process repeats itself for the magazine 2 which has been moved in by the action of the tensioning device 10. The output of the measured value formed by a transducer not belonging to the invention at the input 13 is synchronized with the transport steps such that the printing unit 12 an exact assignment of the measured value is guaranteed to gev / onnen from the code mark 15 and the position numbers 18 sample number.

If a magazine 2 has left the scanning zone 6, it is conveyed by the feed unit 9 into the output shaft 5 and releases the space for the next magazine 2. After the last magazine 2 has been transported through the scanning zone 6 in ten steps, it hits the following light pulse in turn on all photodiodes and sets using the not belonging to the invention control of the automatic analyzer device out of operation.

The scanning of the code mark 15 is carried out in a single step by a light pulse, so not by a stepwise scan with their typical Fehlerrnoglichkeiten as in the aforementioned device.

Claims (4)

Invention claims: A device for the optical-electronic identification of samples with a device for the step-by-step transport of grouped and magazine-mounted sample containers by a scanning zone, a device for scanning coded identification characters and a display circuit of the decoded identification characters, characterized in that the magazines ( 2) are provided with code marks (15), the scanning means of a light pulse source (17) and one of the number of code marks used (15) corresponding number of light receivers (8), which are connected to the display circuit (11), and- provided with the display circuit (11) connected to the step counter (14) j is the input side to the transport device (3) and the output side to the light pulse source (7) is connected. 2 · Device according to point 1, characterized in that the code marks (15) are formed as through the magazines (2) passing through openings or grooves. 3 · Device according to point 1, characterized in that the. Code marks (15) in the magazines (2) incorporated and lined with a reflective layer depressions are « 4 · Device according to Item!, And 2 or 3, characterized in that the Lichtirnppulsquelle (7) contains a rod-shaped electron flash tube -АО- Documents considered: DE-OS 1 673 224 (G 01 n, 1/00) DE-OS 1 921 302 (42 1, 3/08) For this 1 page drawings