DE2502435C2 - DEVICE FOR MIXING LIQUIDS TO BE ANALYZED - Google Patents

Description

Design tapering towards their outlet openings at the central chamber. Appropriately an expansion space is provided in connection with the central chamber, from which asymmetrically arranged and inclined to the longitudinal axis of the device and converging towards one another Channels convey the mixture of liquids to the observation room.

In order to ensure an intimate mixing of the liquid samples to be examined, after According to a further development of the invention, at least some of the asymmetrically arranged channels with transverse channels provided, the axes of which are perpendicular to the axes of the associated first-mentioned channels.

The invention is explained below using an exemplary embodiment shown in the drawing. It shows

Fig. 1 in longitudinal section an analyzer for two to mixing liquids in which the device according to the invention for mixing the liquids is built,

FIG. 2 shows, in an enlarged sectional view, a detail from FIG. 1, sectioned along the line H-II in FIG Fig. 3, and

3 shows a cross section through the part shown in FIG. 2, cut along the line II1-1I1 in F i g. 2.

The analysis device shown in Fig. 1 contains an injection device A consisting of two cylinders A 1 with piston A 2, which are attached to one end of a connecting part oil of a switchable Abspei.gliedes β. The connection part B 1 opposite another connection part B 2 is provided which has two pairs of channels, of which only one pair, namely the feed channels 10 and 12, is visible in FIG. 1, while the other pair is offset by 90 ° is arranged, in the sectional view of FIG. 1 does not appear.

These two pairs of channels connect the cylinder A 1 either with an observation space coder with storage containers (not shown in FIG. 1) for the liquids to be examined after mixing. The cylinders A 1 of the injection device A are provided with pistons A 2 which are actuated at the same time.

The two connecting parts B \ and B 2 of the shut-off member B can be rotated against each other in order to alternately connect the interior of the cylinder A 1 with the storage containers for the liquids and with the feed channels 10, 12. In the latter case, when the piston A 2 is actuated, the two quantities of liquid previously sucked into the cylinder A 1 are simultaneously injected into the upper part of the analyzer, namely into a mixing chamber of the device located below the observation space C , which is described in detail below is.

As can be seen is comprised of Figs. 2 and 3, the mixing device, on which the observation area C is mounted, a housing 16, which is connected in any manner to the base of Beobachlungsraumes C and in which the two feed channels 10 and 12 with the Cylinders A 1 can be connected, open opposite each other (Fig. 3). At diametrically opposite points, the feed channels 10, 12 open into a circular <> 5 channel 18, which is formed from grooves that are machined into the inner wall of the housing 16 and into the outer surface of a cylinder 20 filling the housing 16.

The cylinder 20 has radial bores 24 and 26 provided, the centers of which run in alignment and which are consequently diametrically opposite each other and are also arranged at right angles to the course of the feed channels 10,12.

The bores 24 and 26 open close to the bottom of a central chamber 28, which is called vertical Bore or hole is formed in the cylinder 20.

The bores 24 and 26 are designed to be conical, with decreasing cross-sections towards the chamber 28 which will be discussed in more detail later.

The bottom of the centrally arranged chamber 28, opposite which the bores 24 and 26 open, is as Formed baffle 30, which is shaped like a concavely pointed wave, the center line with the Axis of the inner chamber 28 coincides. In particular, the baffle 30 is preferably on one The end of a shaft 32 is molded onto the lower part of the chamber 28 with very little tolerance forming hole is inserted so that the base of the conical end of the shaft 32 is in the same plane as the lower edges of the outlet openings of the bores 24 and 26 lies, while the apex is in height of the intersection of the center lines of the shaft 32 and the bores 24, 26 or slightly higher, as in FIG Fig. 2 is shown. The central chamber 28 leads into an expansion space 34 in the upper part of the cylinder 20. This expansion space 34 is at the lower end a cylindrical block 36 which is inserted into the lower part of a tube 38, in which also a sleeve 40 made of transparent material is inserted. The tube 38 is diametrically opposed to each other openings 42 provided in positions for observing the current mixing process and / or the reactions of the fluids draining in the sleeve 40.

The tube 38 is fastened to a plate 44 to which the cylinder 20 already described above is also fastened is.

The cylindrical block 36 has in its upper part an axial bore 46, the lower end with at least one asymmetrically arranged channel 48 is in communication. These channels 48 are inclined to the longitudinal axis of the analyzer, downwards away from each other. They connect the outer region of the Expansion space 34 with the bore 46.

At least a portion of these asymmetrically arranged channels 48 is transverse to one or more extending transverse channels 50 combined, the center lines of which are substantially perpendicular to the center lines of the associated asymmetrically arranged channels 48 run and the center of that channel 48 with the periphery of the expansion space 34 connect.

The measures described ensure that the mixing of the liquids takes place completely and intimately, whereby a reliable analysis is always ensured. In fact, the liquids from the cylinders A1 (see Fig. 1) are quickly transferred into the feed channels 10, 12, namely by moving the pistons A 2, and the two liquid flows are directed in radially opposite directions into the annular channel 18 wherein those liquid flows are split in two opposite directions, as shown in FIG. 3 is indicated by the arrows.

The split fluid flows in the channel 18 meet again after about 90 °, namely at

the inlet openings of the conically tapering bores 24, 26. In this way there is already one first, very effective amalgamation was caused by namely these two flow components move in opposite directions, whereupon their flow directions are swiveled by 90 ° after they meet.

This mixture flows through the conically tapered bores 24, 26, and as a result of this conical design, their flow velocity increases towards the end of these bores 24, 26. When leaving the bores 24, 26, the two streams of this mixture hit the baffle surface 30, from which they are deflected and passed along the axis of the central chamber 28, whereby they are subjected to a further mixing process. The mixture obtained at the exit of the central Chamber 28 fills expansion space 34.

The liquid mixture then flows out of the expansion space 34 through the asymmetrically arranged Channels 48 into the bore 46 and from there into the transparent sleeve 40 of the observation space C, where it can be observed through openings 42.

It should be pointed out that during the transition from the expansion space 34 to the sleeve 40 the liquid is subjected to further intimate mixing; because the Qiierkanals become 50 Jets of liquid are injected into the streams passing through the asymmetrically arranged channels 48, and this main stream is cut at right angles by those rays.

In this way it is possible to reduce the so-called dead time during the analysis of mixtures of liquids or to significantly reduce it in the case of other corresponding analyzes and thus correct and reliable Results in the analysis :: u achieve.

Obviously, the basic training described above for realizing the invention can be varied Modifications and further developments are subject to, which include in particular guide means to the To influence deflection of the liquid flows into the various ducts, including those Conducting means in particular others on the feed channels 10, 12 unc the bores 24,26 are arranged. The asymmetrically arranged channels 48 and the these associated transverse channels 50 may be formed with different cross-sections.

For this purpose 2 sheets of drawings

Claims (8)

Patent claims: 1. Device for mixing liquids, in particular for kinetic reactions for former physical analyzes according to the method of interrupted flow, in which the liquids are injected into an observation space via a mixing chamber, characterized in that an annular channel (18) is provided , which is connected at at least two diametrically opposite points to feed channels (10, 12) for the liquids to be mixed and which is connected to at least two radially extending bores (24, 26) which are offset with respect to the feed channels (10, 12) are arranged and which lead to a bottom surface formed as a baffle (30) of a central chamber (28) which is arranged coaxially to the circular channel (18), extends axially upwards and via • symmetrically arranged channels (48 to 50) with communicates with an observation room (C). 2. Apparatus according to claim 1, characterized gekennreichnet that the center of the circular ring extending channel (18) leading radial bores (24, 26) diametrically opposite one another Are disordered and in the flow direction towards the central chamber (28) decreasing cross-sections exhibit. 3. Apparatus according to claim 1 or 2, characterized in that the bottom part of the central Chamber (28) is designed as a baffle surface (30) in the form of a tube-pointed wave, the upper End at the level of the center line of the holes (24, 16). 4. Device according to one or more of claims 1, 2 or 3, characterized in that between the central chamber (28) and the observation space (C) an expansion space (34) is provided. 5. Device according to one or more of the preceding claims, characterized in that the connection between the central chamber (28) and the observation space consists of symmetrically arranged channels (48) tfie converge towards the observation space (C) . 6. Apparatus according to claim 5, characterized in that at least part of the asymme-Irish arranged and mutually converging channels (48) are assigned transverse channels (50), the Center lines essentially at right angles to those of the asymmetrically arranged channels (48) Get lost. 7. Apparatus according to claim 5 or 6, characterized in that the asymmetrically arranged • en Channels (48) and the transverse channels (50) assigned to them in the expansion space (34) flow out. 8. Device according to one or more of the preceding claims, characterized in that an injection device (A) via a switchable shut-off element (B) can be connected optionally to storage containers for the liquids to be mixed and to the feed channels (10, 12). The invention relates to a device for mixing liquids, in particular for kinetic reactions for chemical-physical analyzes according to the method of the interrupted flow, in which the Liquids are injected into an observation room via a mixing chamber. Such a mixing device is particularly important for defined mixing processes for analysis at fast kinematic reactions that occur during and after the mixing of two or more liquids occur together. Analysis devices of this type are designed according to the principle of "interrupted liquid flow" working devices are known and are used in the photometric of the conductance measurement, the heat measurement and used in similar analyzes. The devices known and used for this purpose still have disadvantages and application restrictions, which are mainly caused by the so-called dead times, i.e. by the times that elapse between the beginning and the end of the mixing phase. The invention is based on the object, in particular this but also others when using the conventional analysis devices to overcome problems and limitations and a device to create an uninterrupted and intimate mixture of two liquids under investigation should be guaranteed in a very short and controllable period of time. At the same time, the device should be as simple as possible to design, manufacture and operate, and should be lockable further advantages to be striven for in practical use, such as, in particular, simple maintenance and examining its parts; and the device should finally also be suitable for characteristics To be able to reproduce what is required from time to time for the liquids being analyzed. According to the invention, this object is essentially achieved in that a circular ring-shaped Channel is provided which at at least two diametrically opposite points Feed channels for the liquids to be mixed with one another is connected and with at least two radially extending bores is connected, which are arranged offset with respect to the feed channels and which lead to a bottom surface, designed as a baffle, of a central chamber which is coaxial with the circular channel is arranged, extends axially upwards and asymmetrically arranged channels is in communication with an observation room. So this training causes the z. B. two liquids that are to be mixed together, first of all, each one running through the circularly curved channel in opposite directions Flow directions are deflected and then meet so that they are in the direction of the center point the arrangement flow through the radial bores, after which they in the central chamber in axial Direction are deflected, and that the mixed liquids then continue in the axial direction in introduced into the observation room. According to a further embodiment of the invention, it is advantageous, the cross sections of each other diametrically opposite, leading to the center of the device, radial bores in Direction of flow from the inlet openings in