DE2448350A1 - CONTINUOUS MIXER FOR FLOWABLE MATERIALS - Google Patents

Description

The invention relates to an arrangement in a line for mixing fluids from a junction where they be brought together, transported to a container. If one fluid is a sample to be examined and the other If the fluid is a diluent or a reagent, the two must be analyzed before the mixture in the container Fluids are mixed extremely carefully. In a known system, this is achieved by first the brings combined fluids into a mixing chamber, where air is blown in to mix the fluids. Only after that will be

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the fluids are directed to the container in which the mixture of fluids is examined. Such a system is shown, for example U.S. Patent 3,549,994.

The mixing device according to the invention differs from this known system primarily in that the Mixing vessel and the time required to mix the two fluids in the mixing vessel. The fluids are mixed during the run in a direct (in-line) mixing arrangement.

As will be explained in more detail, the flow mixing takes place by splitting the transfer line into two lines, which then reunite to form a single line that leads to the receptacle in which they were mixed Fluids are examined.

It has already been proposed to have a shunt gallery in a Valve assembly to provide a sample delivery loop so that a fluid, such as a diluent, enters the sample loop is added to expel the sample from the loop and add diluent to the sample, is also passed around the sample loop and expelled to mix into the sample and the diluent. Such a valve arrangement is shown in US Pat. No. 3,412. Mixing takes place during the unification of the Fluids in a valve assembly. The one according to the invention differs from this known mixing in a valve arrangement Valve arrangement through the direct (in-line) mixing in a transfer line, which is located between the point of union of the two fluids and a receiving container.

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The invention thus relates to a fluid transfer system for the transfer of at least two fluids from a merging point to a container. The transfer system is characterized by the fluids mixing during the transfer constructive means.

To explain the invention, reference is made to the exemplary embodiments shown in the drawing. In the Drawing shows:

Fig. 1 is a block diagram of part of a chemical analysis system in which a sample fluid from a Detector tube is withdrawn, combined with a diluent and directed to a receptacle, the transfer line providing the constructive means according to the invention, i.e. the mixing arrangement, contains,

FIG. 2 shows an enlarged section through an embodiment of the mixing arrangement according to FIG. 1,

3 shows another embodiment of this mixing arrangement,

4 shows a section through a modified mixing arrangement, and

5 also shows a section through a further modification.

Fig. 1 shows schematically a system for taking a sample fluid quantity from a test tube 12 and for adding a diluent. The system directs the sample to you

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Receiving container 14 and contains a valve 16 for the alternative connection of a sample metering chamber 18 in the valve 16 between an aspirator 20 in the test tube 12 and a sample pump and valve mechanism 22, as in FIG. 1 shown in solid line, and between a diluent supply and pumping assembly 24 and a fluid transfer line 26. The mixing arrangement 28 according to the invention is arranged in the fluid transfer line 26.

According to the drawing, the mixing arrangement 28 contains a first line section 26a, a first Y-connector 30, two Pipe segments 31 and 32, a second Y-connector 34 and a second line section 26b. The Y connector 30 connects connects the first line section 26a to the two pipe segments 31 and 32 and the second Y-connector 34, the pipe segments 31 and 32 with the 'second line section 26b. The effect of the mixing arrangement 28 is the splitting the line 26 in two lines over at least part of the line length. The analysis of the recorded by the container 14 Fluids has empirically proven that good mixing of the two fluids, in particular the sample and the Diluent, can be achieved through this line division. It is not yet possible to be absolutely certain decide what the better mixing due to this line splitting is due to, but will probably come several factors are taken into account for this. The first factor is the increased turbulence at Y-joints 30 and 34, at which the fluid flow is split up and reunited. Another factor is the sudden decrease in Flow rate and pressure when the pipe is split and the sudden increase in flow rate and the pressure when the lines at the

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Y connection 34 can be reunited. Another difference is the difference in viscosity between the two fluids. For example, if the sample liquid is a blood sample and the second fluid is a diluent, it can be observed that the blood on the wall of the conduit or the Rohres tries to glue so that the blood flows slowly through a pipe, while the diluent, the the blood sample follows, through the other line and around the blood sample Tried to pour around. As a result, the small amount of blood becomes more even in the larger amount of diluent distributed.

In one embodiment of the mixing assembly 28, the Pipe segments 31 and 32 have the same cross-section and the same length, as also shown in FIG. 1. In the other embodiments the size and length of the pipe segments are different. For example Fig. 2 shows a modified arrangement 28 in which a first segment 41 has a larger cross section than the second pipe section 42. In the embodiment of the arrangement 28 according to FIG. 3, a pipe section 51 lying between the Y-connectors 50 and 54 is shorter than a second pipe section 52. In addition, the pipe section 51 is arranged concentrically to the line sections 26a and 26b.

Fig. 4 shows a modified mixing arrangement in which the line 26 is split twice. The second Y-connector 34 is on a short piece of pipe 56, which in turn with a third Y-connector 60 is in communication. The third Y-connector 60 rests on two additional pipe segments 61 and 62 that go to a fourth Y-connector 64. The second Line section 26b is connected to the Y-connector 64. In the embodiment of the mixing arrangement according to FIG. 5

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a triple line split is obtained by a connector 70 with a single inlet and three outlets, three pipe pieces 71 and with a connector 74 which is identical to the connector 70. With this arrangement, the Line split up three times, so that the fluids conveyed through line 26 to container 14 are mixed even better

^become · patent attorneys

DIpI.-Ing. E. Eder Dipl.-Ing. K. Schieschke

β Munich 13. niis-brth.:.> T! o34

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Claims (8)

Patent attorneys Dipl.-Ing. E. Eder Dipl.-Ing. K. Schleeebk » Claims Fluid transfer system for the transfer of at least two fluids from a merging point to a container, characterized by the fluids during the transfer mixing constructive agents (28). 2. System according to claim 1, characterized in that the structural means (28) have a line (26) to Guide the fluids from the connection point to the container, and that the line (26; 26a) over part of it • Split the length into at least three lines (71, 72, 73) is. 3. System according to claim 2, characterized in that that the line (26) is split over part of its length into at least three line lines (71, 72, 73). 4. System according to claim 2, characterized in that the line contains a first line section (26a), two pipe segments (31, 32; 41, 42; 51, 52), a first Y-connector (30; 50) between the first line section and the pipe segments, a second conduit section (26b) and a second Y-connector (34, 54) between the pipe segments and the second line section. 5. System according to claim 4, characterized in that the pipe segments (31, 32) have the same cross-section and the same Have length. 6. System according to claim 4, characterized in that that the cross-section of the pipe segments (41, 42) is different. 509816/0883 7. System according to claim 4, characterized in that the pipe segments (51, 52) are different
Own length. 8. System according to claim 4, characterized in that the line (26) is also divided into two additional line lines (61, 62) and contains two additional pipe segments (61, 62), a third
Y-connector (64) between the pipe segments and the second pipe section (26b), a third pipe section (56) and a fourth Y-connector (60) between the additional pipe segments and the fourth pipe section. Patent attorneys E. Eder 509816/0883 ⁰ I. Blank