CS196629B1 - Separating area for the isotachoforesis with the radiation detection - Google Patents

Description

The invention relates to a separation space for isotachophoresis. The invention has solved the problem of detecting radiation at any point in the isotachophoresis compartment.

The known devices make it possible to detect radiation from a single source at only one point of the separation space, usually at the end where only the resulting separation state is recorded. It is not possible to control the course of the division and often to determine exactly where the components are already separated.

These drawbacks are overcome by the invention of the radiation detecting compartment, consisting of electrode compartments with accessories, connected by a capillary to the support structure and from a radiation source and a detector.

The principle of the separation space according to the invention consists in that the supporting structure with electrode compartments with accessories, provided with a circular capillary support and a capillary thrust ring defining the radiation source gap passing through the capillary to the detector, is rotatable with respect to the detector. the bearings are identical. In another embodiment of the partition according to the invention, the support structure is provided with a circular cut-out and the pressing ring is provided with a reflecting surface for the radiation source beams passing through the capillary to the detector. In another alternative embodiment, a portion of the capillary is replaced by a capillary groove in the pressure ring, wherein the pressure ring is at least in place of the capillary groove made of a translucent material, eg glass, and abuts a circular fit.

The progress achieved by the invention can be seen in the possibility of detecting radiation at any point in the separation space without disturbing the course of the separation and thus detecting the state or the point of complete separation of the components. Furthermore, the velocity of the zones can be measured.

An exemplary embodiment is shown in the accompanying drawings, wherein FIG. FIG. 2 shows a part of the capillary compartment. FIG. 3 shows a part of the partition where the capillary is replaced by a capillary groove.

The isotachophoresis compartment with radiation detection consists of electrode compartments with accessories 2, connected by a capillary tube 3 to the supporting structure 1 and from a radiation source 8 and a detector 9.

The supporting structure 1 with electrode compartments with accessories 2 is provided with a circular bearing 4 of the capillary 3 and a delimiting ring 6 of the capillary 3 defining a slit 11 for beams of radiation source 8 passing through the capillary 3 to the detector 9. The supporting structure 1 is rotatable with respect to the detector 9. and the axis of the annular bearing 4 are identical. Furthermore, for the beams of the radiation source 8 passing through the capillary 3 to the detector 9, the support structure 1 is provided with a circular cutout 5 and the pressure ring 6 is provided with a reflecting surface 7 for deflecting beams, the inclination of the reflecting surface 7 corresponds to the design of the radiation source 8 and detector 9.

If part of the capillary is replaced by a capillary groove 10 in the pressure ring 6, then the pressure ring 6 is at least at the location of the capillary groove 10 made of a translucent material, e.g. glass, and abuts on the circular bearing 4,

The invention can be applied in instrumentation for isotachophoresis, especially where it is appropriate to determine the course of division or the speed of moving zones. In particular, the invention can be applied to the development of new methodologies, process testing, and the like. Other possibilities of using the invention open in combination with a countercurrent, where the countercurrent can be controlled based on the detected zone velocity.

Claims (3)

A radiation detection isotachophoresis compartment comprising an electrode compartment with accessories connected by a capillary to a support structure and a radiation source and a detector, characterized in that the support structure (1) with electrode compartments with accessories (2) provided with a circular by accommodating (4) the capillary (3) and the thrust ring (6) of the capillary (3) defining a slit (11) for the radiation source beams (8) passing through the capillary (3) to the detector (9) is mounted rotatably relative to the detector (9) wherein the axis of rotation and the ear of the annular bearing (5) are identical. OF THE INVENTION Device according to claim 1, characterized in that the support structure (1) is provided with a circular cutout (5) and the pressure ring (6) is provided with a reflecting surface (7) for deflecting beams of the radiation source (8) passing through the capillary (3). to the detector (9). Device according to Claims 1 and 2, characterized in that a part of the capillary (3) is formed by a capillary groove (10) in the pressure ring (6), wherein the tennis ring (6) is at least in place in the capillary groove (10). ) made of a translucent material, such as glass, and abuts a circular bearing (4).