DE4031909A1 - Assembly to recognise the form of advancing solvent - in thin film chromatography irrespective of external time frame, having sensor to locate carrier plate placed in sealed chamber - Google Patents

Abstract

Thin film chromatography requires the precise fixing of the advancement of the solvent front by means of a carrier plate and sensor submerged within a solvent bath, but the moment at which the front passes a given point is difficult to pinpoint outside a given time frame. The novelty is that the carrier plate is placed in a sealed chamber within a housing and that the lowest edge is submerged below a drying flow track in the solvent bath so that the carrier plate may be located from a sensor outside the housing. USE/ADVANTAGE - It is claimed that the arrangement facilitates the determn. of the position of the solvent front without reference to an external time frame, with no other changes in standard laboratory procedures. It is further claimed that the arrangement facilitates the use of a microprocessor to monitor and control the operation.

Description

The invention relates to a device for recognizing the Solvent front in chromatography, especially in thin layer chromatography, with a holder for one immersed in a solvent bath and detachably fixed placed carrier plate and a sensor assigned to it.

Thin-layer chromatography has been used for a long time known analysis method, especially in the general Chemistry, technical chemistry, pharmaceutical chemistry as well as biochemistry, biology, plant research, Toxicology, clinical chemistry, food chemistry and the Environmental analytics is used. It is a laboratory method for the analysis of substance mixtures or also for their preparative separation. One edge is one with coated with a suitable material - usually made of Glass, transparent plastic or an aluminum foil manufactured - carrier plate with a suitable Solvent (mixture) brought into contact, after which the Solvent due to the capillary forces in the Coating drifts. This process is development called.

During development, it has been wetted by the solvent Plate coating other reflective properties than that Unwetted zone, which can also be observed visually. To A thin-layer chromatogram must be terminated according to Er range of the desired solvent medium contact coated plate can be finished with the eluent.  

This currently happens in about 90% of the corresponding La bors by manually removing the carrier plate from the Development tank. Every user of the thin-layer chromato graphie (DC) knows these problems as a result of being removed too late ner or completely forgotten carrier plates.

For optimal evaluation of the chromatogram, reprodu developable distances required. There is one constant observation of the eluent front is essential. A Common method is to measure the time after which it the desired running distance is reached according to driving habits. The Development time is heavily dependent on the plate coating tion material, the eluent and the temperature.

To the sources of error of the temporary development efforts have already been made through optical front detection to achieve an improvement.

It is known to use IR reflection detectors in thin film Chromatography to recognize the solvent front put (Journal of Planar Chromatography - Modern TLC 1, 1 (1988) Takeshi Ormori).

However, this technique also has significant disadvantages. That one The sensor used is outside the development chamber brought. Due to the large distance between the sensor and be stratified plate can by stray light and Re flexions on the glass surfaces incorrect reactions at the Detection occur. That is why it is necessary to have special To use glass development chambers. Furthermore, each time manually change the detector sensitivity after changing the plate be optimized.

A particular disadvantage of known devices are defects in the Time control, which is mostly for the purely analytical Area proves to be not easy. Also disturb external  Influences such as temperature fluctuations, drafts or light idea of reproducibility.

In view of this prior art, the inventor set the goal of a device of the type mentioned Art to provide the time independent of the Er range of the desired solvent route without problems and reproducibly recognizes. In addition, the application device should be independent depending on the size and type of the development tank suitable for the analysis instructions developed in the laboratories be. In addition, a tight seal to the outside is required such.

To solve this problem leads to the device type mentioned that the carrier plate in a ver closable space of a housing is arranged, in which their lower edge below a drying flow in immerses the solvent bath and from outside the Housing space arranged sensor can be scanned. In doing so the housing of a frame and a rear wall a housing cover that delimits the housing space be educated. The back wall is advantageously for the at least partially arranged on the outside of the sensor transparent, preferably in the area of a vertical Guideway of the sensor.

Regarding further features, the dependent claims Be pulled.

For the area of chromatography, the Device according to the invention has a number of advantages:

• - Previous work regulations only directly portable and inevitable due to the new concept fig given;
• - microprocessor-controlled single-beam sensor, the the reflection values of the dry plate  saves and changes through the Evaluates the solvent front;
• - No influence due to sensor radiation lowest radiation and interval operation of the Sensors and through the 3mm glass pane between Sensor and DC plate;
• - Easy setting of the desired running route about programming;
• - Independence from existing development thanks to the integration of the small tub made of Te flon, also extremely low solvent consumption need;
• - Light and gas-tight development room;
• - Use of all plate sizes up to max. 20 x 20 cm accessible through the special plate holder, which is installed at different heights;
• - Reproducible preconditioning of the steam room mes through separate solvent supply and pro grammable waiting time of the dry carrier plate in the steam room;
• - Possibility of automatic plate drying after completion of development through integrated, valve-separated fan with targeted guidance of the air flow (alternatively blow dry with Inert gas);
• - Safe disposal of the used solution through targeted exhaust gas routing with a hose connection Enough;
• - Easy handling.

The expansion options are an additional advantage such as thermostatting, multiple development, Working under protective gas and the envisaged possibility a simultaneous development of several plates appropriate dimensioning and programmable electro control.

The device according to the invention offers an ascending Chromatography on with reproducible vapor space saturation with - as mentioned - targeted solvent disposal. It is also possible to use nitrogen instead of air Carry out drying, even when using several Plates. Overall, the task seen by the inventor solved.  

Further advantages, features and details of the invention emerge from the description below more preferred Exemplary embodiments and with reference to the drawing; these shows in

Figure 1 is an oblique view of a device according to the Invention, partially cut Vorrich with arranged on a base box housing.

FIG. 2 shows the front view of the housing enlarged compared to FIG. 1;

Fig. 3 is the rear view of the housing;

Fig. 4 is a vertical section through Fig. 3 approximately along the line IV-IV.

A device 10 for the reproducible setting of variable eluent routes in thin-layer chromatography has on a - not shown drive and Steuereinhei th - cuboid base box 12 to a rectangular housing 14 to this. A housing cover 16 which can be pivoted about an axis of rotation D is attached to this on the front. This cover 16 can be fixed in the operating position shown in FIG. 1 by bolts 18 and nestles tightly against a frame 20 of the housing 14 with the interposition of a tubular seal 19 . In Fig. 1 12 signal fields 23 and key panel 24 can be seen in front view according to arrow II on an end plate of the base box.

In the open position, not shown, the cover 16 rests on the surface 13 of the base box 12 and is aligned with a bottom bar 17 of the housing 14 . The frame 20 surrounds a transparent plate 26 provided approximately in the middle of its width b of 80 mm, for example, which is fixed upward in a transverse profile 28 ; This bil det with the ridge strip 21 of the frame 20 a closed to the device back through a seal 29 schma len gap 30 of height i.

In the direction of arrow II, the transparent plate 26 is preceded by a support profile 32 in its base region, on which there is a trough 34 and a rod 36 parallel to this as a spacer. The latter rests on both sides in frame 20 .

Near the rod 36 are located above the trough 34 in the frame 20 two mouths 38 of horizontal channels 40 , which at the other end merge into block-like coupling pieces 42 for hose pieces 44 . On the other hand, these end near the cross section 28 in coupling pieces 42 _a , between which 46 tube sections 44 _h run with the interposition of a three-way coupling. From the three-way coupling 46 a further line 48 also leads hose material downwards to a transverse bore 50 in the lower frame strip 21 _t .

From a blower, not shown, air is guided via a riser 52 that can be seen in FIG. 3 to the gap 30 and falls there - when the housing cover 16 is fixed in its closed position shown in FIG. 1 - in front of the trans parent plate 26 , through which Mouths 38 are recorded and transported upwards in the hose sections 44 and through the hose sections 44 _h to the three-way coupling 46 , where the air can be discharged through the further line 48 .

The functionality of the device 10 is irrelevant whether the air flow is promoted by a blower in front of the riser 52 or by a suction device on the line 48 . Only the air cascade between the housing cover 16 and the transparent plate 26 is important .

Approximately parallel to the rod 36 described protrude from the frame side parts in the housing front space 15 two parallel lele each aligned bolts 54 at different distances h from the tub 34 , which are used for a detachable suspension rail 56 ; in this in turn a glass plate 58 is detachably attached, which is held with its lower region in front of the rod 36 .

Behind the described transparent plate 26 there is a vertical slot 60 coating or a corresponding plate 62 as a shield. An adjustable and vertically movable sensor 64 is provided behind this on a driving profile 66 . The corresponding drive devices are only indicated at 68 .

The device 10 is used for thin-layer chromatography in the laboratory to analyze mixtures of substances. The lower edge 59 of the glass plate 58 coated with a suitable material is brought into contact with a solvent mixture in the tub 34 , whereupon this solvent migrates due to the kabilar forces in that coating. The individual substances applied are transported at different distances in the coating depending on their properties. This process is called development.

To end the thin-layer chromatogram, the contact of the coated plate 58 made of glass or the like must be terminated with the flow agent after reaching the desired mobile phase.

This is achieved by the microprocessor-controlled radiation sensor 64 , which stores the reflection values of the glass plate 58 dried by the air flow described and evaluates changes through the solvent front.

Claims (11)

1. Device for recognizing the solvent front in chromatography, in particular in thin-layer chromatography, with an immersible in a solvent bath and detachably fixed carrier plate and an associated sensor, characterized in that the carrier plate ( 58 ) in a closable space ( 15 ) a housing ( 14 ) is arranged in which its lower edge ( 59 ) dips below a dry flow path into the solvent bath and the support plate can be scanned from a sensor ( 64 ) arranged outside the housing space. 2. Apparatus according to claim 1, characterized in that the housing ( 10 ) of a rear wall ( 26 ) surrounding frame ( 20 ) and with this the housing space ( 15 ) delimiting housing cover ( 16 ) is formed, the rear wall for the sensor ( 64 ) provided on its outside is designed to be at least partially transparent. 3. Apparatus according to claim 1 or 2, characterized in that the sensor ( 64 ) on the rear wall ( 26 ) of the housing ( 15 ) is arranged in parallel to her or changed. 4. Device according to one of claims 1 to 3, characterized in that the rear wall ( 26 ) of the housing ( 14 ) in the region of a vertical strip fens ( 60 ) is transparent, on which a guide track ( 66 ) for the sensor ( 64 ) runs. 5. The device according to at least one of claims 1 to 4, characterized in that the solvent bath in a ver at the foot of the housing ( 15 ) and interchangeable tub ( 34 ) is vorgese hen and above this brackets ( 54 ) to set a Holding profile (clamping rail 56 ) of the support plate ( 58 ) are arranged. 6. The device according to at least one of claims 1 to 5, characterized in that in the upper loading area of the housing space ( 15 ) opens an air supply ( 52 ) and in the region of the tub ( 34 ) a draft openings ( 38 ) provided for the falling Tel fluid are. 7. The device according to at least one of claims 1 to 6, characterized in that the Luftzufüh tion ( 52 ) and derivatives ( 44 , 44 _a ) of the feed openings ( 38 ) hose elements on the rear wall ( 26 ) of the housing ( 14 ) and laterally are overlapped by the frame ( 20 ). 8. The device according to at least one of claims 1 to 7, characterized in that the feed openings ( 38 ) to channels ( 40 ) in the frame ( 20 ) close, which in couplings ( 42 ) for the hose elements ( 44 , 44 _a ) end up. 9. The device according to at least one of claims 1 to 8, characterized in that the Luftzufüh tion ( 52 ) opens into a horizontal gap ( 30 ) on the upper frame side ( 21 ) which is open to the Ge room ( 15 ) and above the plane of the support plate ( 58 ) forms a flow edge. 10. The device according to at least one of claims 1 to 9, characterized in that the Luftzufüh tion ( 52 ) with the housing space ( 15 ) and the Ablei lines ( 44 ) of the feed openings ( 38 ) in the circuit of an air conditioning device. 11. The device according to at least one of the preceding claims, characterized in that the sensor ( 64 ) provided on the rear wall ( 26 ) is a microprocessor-controlled radiation sensor, by means of which the reflection values of the dry carrier plate ( 58 ) can be stored and changes can be evaluated by the air center front are.