DE8804938U1 - Device for the chemical analysis and/or treatment of substances contained in several sample vessels - Google Patents

Description

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measurements of the chemical oxygen demand (COD) of water samples by titration.

Titration devices are known in which the titration takes place directly in the sample vessels. For this purpose, the sample vessels are arranged in a circle on a rotating plate of a sample changer. By gradually driving the rotating plate, the sample vessels with the samples they contain are fed one after the other to a titration station, in which the titration liquid is added, the course of the reaction is monitored using measuring electrodes inserted vertically into the sample vessels, and the titrated solution is then sucked off.

The sample preparation or reagent dosing must take place under defined conditions, in particular at a certain temperature. The sample vessels in the conventional titration device can therefore be removed individually from the sample changer and set in a thermostat so that the samples can be heated or cooled to the desired temperature.

However, transferring the sample vessels from the sample changer to the thermostat and vice versa is relatively cumbersome with conventional devices and also represents a considerable source of danger _since the

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The invention relates to a device for chemically examining and/or treating substances contained in several sample vessels according to the preamble of claim 1.

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Open sample vessels often contain very aggressive solutions, for example concentrated sulphuric acid in the case of COD measurements.

The invention is therefore based on the object of simplifying the handling of the sample vessels in a device of the type mentioned at the beginning and of increasing the safety when working with the device.

The inventive solution to this problem arises from the characterizing part of claim 1.

The basic idea of the invention is that all sample vessels are arranged in a common sample holder, which is rotatably and detachably mounted on the turntable of the sample holder, so that all samples can be handled with the sample holder as a unit and, for example, inserted into the thermostat.

Advantageous further developments and embodiments of the device according to the invention are specified in the subclaims.

In the following, preferred embodiments of the invention are explained in more detail with reference to the drawings.

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Show it:

Fig.1

Fig.2

a perspective view of a titration device according to the invention ;

a sample holder in plan view; and

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Fig* 3 a schematic partial section through a sample changer with attached sample holder *

Figure 1 shows a complete titration device, with a sample changer 10, which carries a number of sample vessels 12 arranged in a circle, a titration station 14 arranged on the circumference of the sample changer, a dosing unit 16 for supplying titration liquid to the titration station, a pump 18 for sucking off the titrated solution and for rinsing the sample vessels, a thermostat 20 and a control unit 22.

The sample changer 12 has a step-by-step driven turntable 24, through which the sample vessels 12 are fed one after the other to the titration station 14.

The titration station 14 has a carriage 28 that can be moved vertically along a column 26 and that carries a number of measuring electrodes 30 and probes 32 for supplying and sucking off liquid. The measuring electrodes and probes can be inserted into the sample vessel 12 located at the titration station by lowering the carriage 28.

The turntable 24 has a base plate 34 and a central cylindrical base 36 on which a disk-shaped sample holder 38 is placed so as to rotate. The sample holder 38 has a number of receiving openings 40 (Figure 2) for the individual sample vessels 12 near its outer edge. Each receiving opening is surrounded by a sleeve-shaped guide part 42 by which the essentially cylindrical sample vessel is held.

The sample holder 38 is from the base 36 of the turntable

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removable and is shown separately again in Figure 1 above the thermostat 20. In order to handle the sample holder 38, a handle 44 is provided in the middle of the disk-shaped sample holder in the embodiment according to Figure 1.

The thermostat 20 is used to heat or cool the samples to the desired reaction temperature and has a heatable metal block 46 which is provided with a number of receiving shafts 48 for the individual sample vessels 12. The arrangement of the receiving shafts 48 in the metal block 46 corresponds to the arrangement of the sample vessels 12 in the sample holder 38. With the help of the sample holder 38, all sample vessels 12 can thus be removed from the sample changer 10 in one movement and inserted with their exposed lower areas into the receiving shafts 48 of the thermostat. When the desired reaction temperature is reached, the sample vessels can be placed back on the turntable of the sample changer in the same way with a single movement. In this way, handling of the sample vessels is made considerably easier and the risk of spilling corrosive or flammable liquids when handling the individual sample vessels is reduced. In addition, greater measurement accuracy is achieved because the samples can be transferred from the thermostat to the sample changer in the shortest possible time using the sample holder 38, so that the reaction temperature can be maintained more precisely.

As can be seen in Figures 2 and 3, the disk-shaped sample holder 38 has three positioning openings SC1/52 in its central area for _inserting ^the marker pens 64 protruding from the surface ^3S of the base 36 of the rotary plate.

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engage so that a rotationally fixed connection is created between the sample holder 38 and the rotary table 24. The holding pins 54 have a shoulder to support the sample holder 38 and are conically tapered at their upper end so that the placement and centering of the sample holder is made easier. The positioning opening 50 and the associated holding pin have a slightly smaller diameter than the other positioning openings 52 and holding pins. This ensures that the sample holder can only be placed on the rotary table 24 in a certain angular position.

The receiving openings 40 for the sample vessels 12 are distributed at equal angular intervals around the circumference of the sample holder 38. At one point on its circumference, however, the sample holder has a recess 56 that takes the position of a missing centering opening. When the rotary plate 24 is in its basic position, the recess 56 faces the titration station 14. Even when the carriage is in its lowered position, the sample holder 38 can therefore be attached and removed without damaging the probes and electrodes. In addition, a protective tube 58 is installed on the rotary plate 24, the shape of which corresponds approximately to the sample vessels 12 and is received in the recess 56 of the sample holder 38 when it is attached. When the turntable is in the home position and the carriage 28 is lowered, the probes 30 and electrodes 32 are immersed in the protective tube 58 so that they are additionally protected against damage.

As can be seen in Figure 3, each of the guide sleeves 42 ^for the sample vessels 12 is provided with a downwardly projecting

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The sample holder 38 is provided with a bracket 60 which is angled at its lower end and reaches under the bottom of the sample vessel so that the sample vessel is secured in a vertical direction. When the sample holder 38 is placed on the thermostat 20, the brackets 60 can also be inserted into the receiving shafts 48.

Finally, Figures 2 and 3 show a modified embodiment of handles for handling the sample holder 38. According to this embodiment, two bow-shaped handles 62 are provided, which can be hooked with their hook-shaped upwardly angled ends 64 into corresponding insertion openings 66 on the circumference of the sample holder 38.

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The sample holder 38 not only makes the work of transferring the sample vessels from the sample changer 10 to the thermostat 20 and vice versa considerably easier, but also allows all sample vessels to be inserted easily and safely into several identically constructed sample changers, so that in complex analysis processes that include several titration steps, dosing steps and the like, it is possible to work efficiently with several sample changers for the various process steps.

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Claims (10)

TER MEER-NJtULLER-STEINMEtSTER & PARTNER PATENT ATTORNEYS - EUROPEAN PATENT ATTORNEYS Dr. Nicolaus ter Meer, DipL-Chem. Helmut Steinmeister, DipL-Ing. Fritrijof E. Müller, Dipl.-Ing. Manfred Wiebusch Mauerkircherstrasse 45 Artur-Ladebeck-Strasse D-8000 MUNICH 80 D-4800 BIELEFELD Wi/SC [ GERMAN METROHM GMBH & CO. Plattenhardt, In den Birken 7024 Filderstadt DEVICE FOR CHEMICAL EXAMINATION AND/OR TREATMENT OF SUBSTANCES CONTAINED IN SEVERAL SAMPLE VESSELS PROTECTION CLAIMS 1. Device for the chemical analysis and/or treatment of substances contained in several sample vessels (1?), with a sample changer (10) which has a rotary plate (24) which receives the sample vessels in a circular arrangement and which feeds the sample vessels to a work station (14) by gradually rotating the rotary plate, characterized by a sample holder (38) which is held rotatably on the rotary plate (24) and on which the receiving elements (40) for the individual sample vessels (12) are formed and which can be removed from the rotary plate (24) together with the sample vessels. He suffered I I &igr; » « &diams; I «It TER MEER - MÜLLER - öJ-ElNMEläTSft & PARTNER* Deutsche Metrohm 2. Device according to claim 1, characterized in that the receiving members are designed as insertion openings (40) into which the sample vessels (12) can be inserted in such a way that they protrude with their lower ends essentially freely from the sample holder (38).
stand out. 3. Device according to claim 2, characterized in that each receiving member has a .- has a boom (60) extending downwards from the edge of the corner opening, which is angled at its lower end to support the bottom of the sample vessel (12). 4. Device according to one of the preceding claims, characterized by bow-shaped handles (62) with hook-shaped lower ends (64) which can be hooked from below into corresponding insertion openings (66) of the sample holder (38). 5. Device according to one of claims 1 to 3, characterized by a handle (44) extending vertically from the center of the sample holder (38). 6. Device according to one of the preceding claims, characterized in that the sample holder (38) is essentially disk-shaped and is provided with eccentrically arranged positioning openings (50, 52) and that the rotary plate (24) has vertical holding pins (54), preferably tapered at the upper end, which engage in the positioning openings of the sample holder. 7. Device according to claim 6, characterized in that at least one of the positioning tilt Il here I I I t t t * t * 4 t 4 » tan meer · MÖLLER .'&eacgr;&tgr;&Bgr;&Ngr;&Mgr;&phgr;&idiagr;^;* i>}mK*h German Meti-öhm ■ - - ■-- · , -- _r &mdash; - - , ■■ » :-.--■&mdash;■- &mdash;- &mdash; -- |----| f ---- &mdash; m ft &rgr; ■ * ■ - - ■ ·- '- ■ -"-"■ --' ■--■- ,---;-:.- -■■ -■ --,&ldquor;■■-,-■■ ■■.;■..&rdquor;. openings (50) and the associated retaining pin have a diameter of the diameters of the remaining
Positioning opening (52) and retaining pins deviates, 8. Device according to one of the preceding claims, characterized in that the sample holder
(38) has a recess (56) on its circumference, the
Position and floor plan of the position and your floor plan are
missing recording organ as a result of the otherwise
iÖ evenly distributed over the circumference of the sample holder
receiving organs (40) for the sample vessels (12). 9. Device according to claim 8, characterized in that the rotary plate (24) for protecting jj electrodes (30) which can be inserted into the sample vessels (12), Probes (32) and the like of the work station (14) ^ a protective vessel (58) which is approximately j in shape corresponds to the shape of a sample vessel (12) and at f attached sample holder (38) in its recess ji (56) is located. !■ 10. Device according to one of the preceding claims, ^ with a heating and/or cooling device having receiving shafts (48) for the individual sample vessels (12) | (20) for the samples, characterized in that J that the arrangement of the receiving shafts (48) of the heating j and/or cooling device (20) with the arrangement of the | receiving elements (40) of the sample holder (38). |