DE3435886A1 - DISTRIBUTION DEVICE FOR EXAMINATION SAMPLES - Google Patents

Description

8h 185 KN

NUKEM GmbH

6450 Hanau 11

Distribution device for test samples

The subject of the invention is a distribution device for test samples, in particular for radioactive samples, with corresponding inlets and outlets arranged in one or more rows.

ι *

In the chemical and pharmaceutical industries in particular, samples accumulate in different areas that are physically and are to be examined chemically in central laboratories. This also applies in particular to nuclear facilities * A large number of To examine samples from the process streams in a central laboratory facility. The test samples are divided into three categories according to their radioactivity Subdivided into weak, medium and highly radioactive. The central laboratory is accordingly in its work areas structured.

To bridge the sometimes considerable spatial distances Between the 30 th separate rehearsal sites

Pneumatic post systems are mostly used in the case of incidence and the testing laboratory. This involves a large number of long pneumatic tube lines needed.

_o _ On a case-by-case basis, sample distribution stations are

switches.

In the nuclear area, these must be housed in shielded boxes or in hot cells there very laboriously and manually with the known manipulation technique operated. For a high number of samples, 5

however, this method of handling is not suitable. This also applies to considerations of robots that are in the distribution stations are to be used. Reliability and maintenance, apart from the high cost, are serious Problems.

The invention was therefore based on the object of a distribution device for test samples, especially for radioactive samples, with corresponding in one or infeeds and discharges arranged in several rows

to create the line systems previously required is reduced, cost and maintenance-friendly and also ensures that, for safety reasons, the Transport direction of the sample container is maintained during its transport, for example always with the

The bottom of the sample container.

This object has been achieved according to the invention in that below the feeders provided with locking slides

and discharges for the 25 located in sample containers

A movable transport slide is attached to the test samples, which is equipped with a controllable turning device is provided for the sample container and controlled the individual via a central computer and a controller Inlets and outlets by means of a stepper motor

can approach, wherein the turning device, a bore or a pipe section for receiving the sample container contains, by means of a gear and a rack through a pneumatic or hydraulic cylinder within a

Sample limitation housing can be rotated 180 °, and

is provided with an ejector rod for introducing the sample container into the respective discharge.

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Advantageously, the locking slides that can be opened by the approach by means of the transport slide are provided with return springs.

The invention is described in more detail by way of example on the basis of the schematic figures I to VIII.

Show it

Figure I: A general overview of the device;

Figure II: A cross-section along the line AB in

Figure I;

¹ ^ Figure III: A schematic representation of the ■ turning device;

Figure IV bis

VIII: Representation of the functional sequence of a

Sample distribution,

In a nuclear power plant are drawn placed in the sample container _5, for example low- at 50 sampling points and / or medium and / or high-level radioactive test samples, the sampling corresponding to the "coded Téhé

and these are not in 50 very long lines to the central laboratory but first of all by means of 50 short lines in a short distance from the sampling points installed distribution facility. To the positioning and turning, the sample containers are only via a maximum of 3 longer lines, which are the mentioned Radioactivity categories are assigned to the central laboratory or the corresponding other bodies. A central computer controls the entire system u.

_o a, with the help of the container coding. A control element assigned to the distribution device coordinates and operates the automatic handling required in each case in the distribution device. / • -

The distribution station is located in a box (20) through which, in two parallel rows and staggered in height, tubular inlets (l) and outlets (2) for the

Sample container (19) are passed through. The number of 5

Feeds (1) and discharges (2) are adapted to the respective needs. Normally, the number of infeeds (1) outweighs that of outfeeds (2) considerably, however, depending on how many sampling points in the process building and target points in the laboratory are to be linked with one another. A transport slide (h) is arranged below the feed pipes (1) and discharge pipes (2) each provided with locking slides (3). The horizontal movement of the transport carriage (k) is achieved by means of a threaded spindle (5) and a guide rod (6) _x

ligt. The threaded spindle (5) is powered by a stepper motor

(7), which is flanged to the box wall and positively coupled to the threaded spindle (5). The stepper motor (7) can also - if the installation conditions of the box (20) do not match the arrangement shown

- be arranged on the operating side of the box.

3435886 -τ ι If a sample container (19) has arrived according to the specifications of a higher-level process computer for the target location at a speed of, for example, ^{10-20 m / s in 1 of} the feeders (l), the transport carriage {h) moves from its rest position under this Feed (l).

By actuating the pneumatic cylinder (l6), the turning device (8) together with the sample limiting housing (9) is shifted in such a way that that the associated slide valve (3) loaded with the return spring (23) is inevitably opened. The sample container (19) falls into the bore (22) in the turning device (8). In the resting position are the locking slides (3) of all feeders

(1) and discharges (2) closed (Figure IV), Ώρτ pneumatic cylinder (l6) on the horizontal discharge (15) is actuated again, and the turning device (8) rajt sample limiting housing (9) moves up to the stop (23) on the transport slide ( 4). The stop (23) is positioned on the discharge side. The locking slide (3) of the feed (l) that has just been left closes automatically (Fig.V).

The transport slide (4) is now moved under the discharge specified for the destination by means of a stepping motor (7)

(2) driven.

According to Fig. VI, the pneumatic cylinders (12, 18) are actuated at the same time. The pneumatic cylinder (12) causes One rotation via the gearwheel (10) and the rack (ll) the turning device (8) by 180 °. The sample limiting housing (9) ensures that the sample container is turned over (19) cannot fall out of the bore (22). After the V / end is the bottom of the sample container (i9) again aligned in the direction of further transport to the front. This will put the sealing elements on the face of the sample container is not contaminated or endangered.

The pneumatic cylinder (l8), attached to the transport slide (4) via a diagonal guide (17), pulls the turning device (8) together with the pneumatic cylinder (l6), horizontal ¹ guide (15) and housing (9) diagonally upwards. / β

_ 8th -

The turning device is activated by actuating the pneumatic cylinder (l6) (8) with the sample container (19) turned by 180 under the given outlet (2), with the bore

(22) in alignment, pushed. The person responsible for this transfer (2) 5

The associated slide valve (3) is inevitably opened (Fig. VIl).

The ejector rod (13) is lifted by means of a pneumatic cylinder (lh) (Fig. VIII). As a result, the turned sample container (19) is pushed into the discharge (2) and can be transported to the target device after the turning device (8) has been moved away via the pneumatic cylinder (16) and the locking slide (3) has returned to the locking position. By actuating the Pneumatikzy-. . ,.

Linders (lh) moves the ejector rod (13) back down.

Then the turning device (8) together with the housing (9) is brought into the lower position required for the feeders (1) via the pneumatic cylinder (18). The stepping motor (7) now moves the transport carriage (h) into a neutral rest position, with approximately the same distances to the outer feeders (1) and awaits the next distribution command.

In general, all cylinders work on both sides. You can 25

can also be driven hydraulically. The turning device can also be operated electrically and instead of a rotating body with a bore (22) also from a housing (9) rotatable pipe section exist. With inclined feeders

and discharges, the turning device is under consideration

Consideration of this inclination and corresponding control can be used.

The number of inlets and outlets is adapted to the application.

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With only a small number of, for example, up to about OK, the infeeds and discharges can also be used without staggering heights and arranged in just a single row. be. In such a case, the diagonal guide (i7) is not required. for the “turning device (8) and the associated drive cylinder (18).

Other known possibilities can also be used for guiding the transport slide (4).

In the case of non-radioactive samples, i.e. in chemical, pharmaceutical and other areas, an open design, e.g. as a table-top device, is possible. Instead of the disposable sample containers normally used in nuclear facilities, the distributor ^{according to the invention can be used for w}

direction, reusable sample containers can also be distributed.

The distribution device according to the invention works because of reliable due to its simple structure. Samples of different quality can be cost-saving, reliable and without Damage can be brought to the destination with a minimum of line effort, DJ e distribution facility is also for highly suitable for a high number of samples »

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Claims (1)

84 185 KN NtIKEM GmbH 09/11/1984 Hanau 11 Distribution device for test samples Patent claimsϊ 1. Distribution facility for examination samples, in particular for radioactive samples, with corresponding in "° one or more rows of feeders and depreciation guides,
characterized labeled in zeic HNET, there!? A movable transport slide (4) is attached below the feeds (1) and outlets (2) for the test samples located in the sample containers (jQ), which are provided with locking slides (3) and which is equipped with a controllable killing device (8) for the sample containers ( .19) is provided and controlled the individual via a central computer and a controller "° Feeds (X) and discharges (2) can be started by means of a stepper motor (?) _F whereby the turning device (9) _; which contains a bore (22) or a pipe section for receiving the sample container (39), by means of a gear (10 ) and a rack (11) can be rotated around ISO by a pneumatic or hydraulic cylinder (12) within a sample housing (9), and with an ejector rod (13) for introducing the sample container (19) into the respective transfer (2y is provided »
35 Distribution device according to Claim 1, characterized in that the locking slides (3) which can be opened by the approach by means of the transport slide (k) are provided with return springs (23). / 3