DE2007743B - Reaction beaker - Google Patents

Description

The invention relates to one for rotation about its longitudinal axis suitable reaction beaker for chemical conversion and suction of a thin film, with a removal groove in the upper part of the inner surface of the cup.

Through the publication of P. Edman and G. B e g g in the journal "European Journal of Biochemistry", March 1967, pp. 80 to 90, is a "sequenator" Designated analyzer for carrying out reactions on thin-film films in a rotating reaction beaker became known. The purpose of the device is to create amino acid sequences in proteins and peptides for structure elucidation to a suitable degradation process subject. This degradation process takes place in an inert nitrogen atmosphere to the thin-film film forming in the rotating reaction beaker investigating substance. Under the action of centrifugal force, the in the liquid introduced into the beaker up the inner wall of the rotating beaker, is thereby distributed to a thin film and, by adding various, the film covering agents subjected to the desired reaction. The film liquid continues to rise and collects in a removal groove provided on the upper edge of the cup, which is sunk into the inner surface of the reaction beaker and has a depth of has about 1 mm. The liquid is drawn into the removal groove by means of a immersing hose sucked.

With such an arrangement it has been found to be disadvantageous that the suction hose dipping into the removal groove creates turbulence in the groove filling liquid causes this turbulence retroactively the thin film on the inner surface of the reaction beaker is transferred and the reaction progresses disturb. The turbulence mentioned above also causes changes in height and evenness of the thin film, thereby adversely affecting quantitative conversion can be.

The present invention is therefore based on the object to eliminate the difficulties mentioned in a simple manner and with little effort. This object is achieved according to the invention by a stepped narrowing between the removal groove and the lower part of the inner surface of the cup.

This stepped narrowing, which is preferably immediate passes into the removal groove, the thin film is on the entire lower part the inner surface of the cup exactly in terms of both its height and its thickness and reproducibly set, thus ensuring a quantitative response of the added Agents with the substances of the thin film is guaranteed. By attaching Surprisingly, however, there are still more to this stepped narrowing Advantages which are important for carrying out the reaction. So will result the achieved, constant surface of the thin-film film is largely independent the reaction of the viscosity, surface tension and volume dosage of the added Agents reached. In addition, the reaction also depends on the speed of rotation of the reaction beaker independently, which is an extraordinary Advantage represents there a perfectly constant rotation speed rotation speed normally can only be achieved with a great deal of effort. In detail, a speed independence can be achieved from 1400 rpm. determine upwards.

These properties of the reaction beaker according to the invention have also means that it is largely independent of temperature changes. In the end one can also use complicated metering devices for the addition of the agents as well as the complicated ventilation devices provided in known devices for - the storage vessels - spare the agents.

The most important advantage arises in connection with the solution the object of the invention as a quantitative reaction of the thin film with the added agents completely trouble-free without any reaction from the suction of the thin film can be carried out from the removal groove. The mandatory Prevents height limitation of the thin film at the stepped constriction any uncontrollable dragging of the thin-film films. This is also the Wetting of the thin film by the added agents is precisely reproducible, which is a basic condition for carrying out a quantitative reaction " Preferably, the depth of the extraction groove is greater than the thickness of the thin film. This results in a complete constriction at the upper edge of the stepped constriction Tearing off of the liquid film and a retroactive effect of the suction from the removal groove on the thin film in the lower part of the inner surface of the cup is excluded Hand of the figure, in which an axial section of an embodiment of the invention Reaction beaker is shown, the invention will be explained in more detail.

The lower part of the cylindrical inner wall of the cup on which the Forms thin film, not shown, is denoted by 1 in the figure. In the upper part of the inner surface of the cup, a removal groove 2 is provided into which a extraction hose, not shown, is immersed in it.

Between the removal groove 2 and the lower part 1 of the inner surface of the cup a stepped constriction 3 is provided, which in the illustrated embodiment merges directly into the removal groove 2 at the upper edge. In this embodiment the stepped constriction 3 has the shape of a cylindrical ring. Important is the step-shaped transition from the lower part 1 of the inner surface of the cup to narrowed part 3.

Claims (2)

Patent claims: 1. Reaction beaker suitable for rotation about its longitudinal axis for the chemical conversion and suction of a thin film, with a removal groove in the upper part of the inner surface of the cup, characterized by a stepped narrowing (3) between the removal groove (2) and the lower part (1) of the inner surface of the cup. 2. reaction beaker according to claim 1, characterized in that the Constriction (3) merges directly into the removal groove (2).