Agitating – With heating or cooling – Medium in stirrer or mixing chamber
Reexamination Certificate
2001-02-07
2003-07-22
Cooley, Charles E. (Department: 1723)
Agitating
With heating or cooling
Medium in stirrer or mixing chamber
C366S337000
Reexamination Certificate
active
06595679
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to a static mixer, comprising at least a mixer insert, possibly a support and possibly a hold-down device, with an enclosing housing, the mixer insert being made up of a multiplicity of interleaved grids of mutually parallel bars arranged in layers lying one above the other, and the grids being arranged with respect to one another in such a way that they are turned by an angle &agr; about the main direction of flow through the mixer.
BACKGROUND OF THE INVENTION
For the mixing of high-viscosity liquids in particular, static mixers are often used. A pump forces the liquid through a tube provided with static mixer internals, the liquid following the axis of main flow being divided into part streams which are swirled and mixed with one another, depending on the type of internals.
The following two devices are mentioned as examples of static mixers:
In the case of the so-called Kenics mixers (see “Mischen beim Herstellen und Verarbeiten von Kunststoffen” [mixing in the preparation and processing of plastics], published by VDI Ges. Kunststofftechnik, VDI-Verlag 1986, pages 238-241), the liquid flow of the product to be mixed is divided into part streams by a separating plate fitted into a tube. The separating plate is twisted about the tube axis. In each of the part streams of the liquid, a turbulent flow is produced, which leads to the liquid being redistributed in the cross section of the tube. Usually, a plurality of such mixing elements are arranged one behind the other in order to keep re-dividing the liquid and to achieve an adequate mixing result. Satisfactory mixing is typically achieved only after 10 to 12 mixing elements.
The also known, so-called SMX mixers (cf. Patent Specification U.S. Pat. No. 4,062,524) comprise two or more mutually perpendicular grids of parallel sheet-metal strips, which are welded to one another at their crossing points and are set at an angle with respect to the main direction of flow of the product to be mixed, in order to divide the liquid into part streams and mix it. The manufacturing effort for these mixers is very high because of the many weld connections to be made. An individual mixing element is unsuitable as a mixer, since thorough mixing only takes place along a preferential direction transversely with respect to the main direction of flow. Therefore, a plurality of mixing elements which are turned through 90° with respect to one another must be arranged one behind the other. Really thorough mixing typically requires 5 to 6 mixer elements arranged one behind the other.
This can be explained as follows: an SMX mixer has only two grids of parallel bars turned through 180° with respect to each other. These grids comprise layers of equidistant bars. Neighbouring layers are arranged in line with one another. Each layer represents a plane of symmetry which is not crossed during mixing.
DETAILED DESCRIPTION OF THE INVENTION
The object of the invention is to provide a static mixer which surpasses the mixing effect of the known mixers, in particular of the SMX mixer, and can be produced with minimal production effort.
The object is achieved according to the invention by a static mixer comprising at least a housing with possibly a support and possibly a hold-down device and with a mixer insert comprising at least three grids of parallel bars which are turned with respect to one another about the direction of flow and are set with respect to the direction of flow.
The subject matter of the invention is a static mixer comprising at least a mixer insert, possibly a support and possibly a hold-down device, with an enclosing housing, the mixer insert being made up of at least three interleaved grids of mutually parallel bars arranged in layers lying one above the other, and the grids being arranged with respect to one another such that they are turned by an angle &agr; about the main direction of flow through the mixer.
In the case of this design, the bars of one grid can be kept in their position by the bars of the other grids without having to be connected to one another. Therefore, with this type of design no additional effort is required for welding the bars together.
On account of the arrangement according to the invention there is no plane of mirror symmetry, so that the mixing effect takes place biaxially.
A preferred configuration of the static mixer is characterized in that the bars are set at an angle &bgr; preferably of 30 to 60° with respect to the main direction of flow through the mixer.
In a preferred variant of the static mixer, the bars of one grid are fixed in their position by the bars of the other grids, the housing and, in the case of the bars at the ends, by the support and/or the hold-down device.
The number of grids of the mixing insert of the static mixer is preferably three or four.
It is particularly preferred for the static mixer to be constructed in a rotationally symmetrical manner corresponding to the number of grids.
A preferred configuration of the static mixer is characterized in that three grids with parallel bars are constructed from parallel layers of bars, respectively neighbouring layers being staggered with respect to one another.
Another preferred configuration of the static mixer is characterized in that four grids with parallel bars are constructed from parallel layers of bars, neighbouring layers being in line with one another.
In a further preferred form of the static mixer, neighbouring grid planes of a grid are arranged offset with respect to one another and the number of grids is four.
If the static mixer is also to be used as a heat exchanger, the bars may be designed as hollow bars which open out in the housing wall, the housing wall having an enclosure divided into a plurality of chambers, with discharge lines and supply lines for a heat transfer medium.
Further subject matter of the invention is the use of the static mixer according to the invention for the mixing of high-viscosity products to be mixed, in particular polymer melts or polymer solutions with additives, other polymers, dyes, pigments or stabilizers.
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VDI-Gesellschaft Kumststaffechnik Jan. 28 and 30, 1986, pp. 348-341, Mischen beim Herstellen und Verarbeiten von Kunststoffen.
Bayer Aktiengesellschaft
Cooley Charles E.
Gil Joseph C.
Mrozinski John E.
Preis Aron
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