DE19545819A1 - Hydrodynamic ultrasonic homogeniser - Google Patents

Abstract

The ultrasonic processor/mixer casing has a cover at one end, with opening. The heavy core of the new design carries equally-spaced transverse discs (10). Each has two similar segments cut by parallel transverse chords. One smooth surface (11) is perpendicular to the axis. Opposite halves of opposite edges of the second surface (12), subtend the same acute angle with the smooth surface (11), and with the long edge. Each element is rotated in sequence, smooth surfaces following one after the other. Below the initial points of these surfaces, lie the smooth surfaces of a triangular shape (14). Final points of one element cover the initial ones of the next. Elements are attached by pegs (15, 16) in blind openings (17, 18). The two spiral channels so formed, are both interrupted and interconnected.

Description

The invention relates to a device for hydrodynamic ultrasonic processing, Mixing and homogenization of liquids, for example in the following areas can be used: mechanical engineering, chemistry, oil production and processing, Transport, medicine, everyday consumption.

The following devices are already known from practice:
A device for homogenizing and ultrasound processing of liquids, consisting of a hollow body and caps with openings. In the body cavity there are one behind the other: a core in the form of a stepped two-speed screw, a cone valve and a current radiator with two channels in the form of an Archimedean spiral.

The disadvantage of the device is the high hydraulic resistance. A device for hydrodynamic ultrasonic processing of liquids, consisting of egg A cylindrical body with a cylindrical opening, in which a cylindrical Core is attached. A multi-course spiral ka runs on the edge of the core nal. It is also an axially attached opening from the execution of a Laval nozzle, there is also a diaphragm and an outlet opening. The disadvantage of the one direction is the great hydraulic resistance. A device for liquid mixing Schung, consisting of a pipe part, the inside with at least one mixture element is provided. This mixing element is spiral-like around the pipe axis wound and consists of two groups of surface regions that oppose each other folded and attached in rows according to the length of the mixing element. Each of the surface regions represents a triangle, the basis of which is based on one of the spi ralen-like elongated edges of the mixing element and to the Base borders the next region. The smooth surface regions can be from egg a trapezoidal shape.

The disadvantage of the device is that it does not involve any ultrasonic processing the liquid to improve its operating properties is possible.

The present invention has for its object a device for hydro dynamic ultrasonic processing, mixing and homogenization of liquid  to develop and further develop such skills that they have a higher us degree of efficiency with lower hydraulic resistance.

This object is solved by the features of claim 1. After that is a device for hydrodynamic ultrasound processing, mixing and ho Mogenization of liquids designed such that one with a cylindrical Opening provided body is provided. In the cylindrical opening of the body a core is attached. The core is a dense cylinder that is equidistant gen is divided by transverse planes. This forms disks, from which elements are shaped. Each element is shaped by putting out between each disc neighboring transverse planes two identical segments with parallel chords are cut. The vertical to the axis of the dense cylinder, making up the elements cut out, lying surface of each element is smooth. The against overlying halves of the two opposite longitudinal edges of the second surface che, which is vertical to the axis of the dense cylinder, lie below one and the same ben acute angle to the smooth surface and in a vertical to the transverse edge Direction, so that this second surface with parts of the two smooth side surfaces of the shape of the same triangle. The two bases of the two same tri Angel lie on both transverse surfaces of the elements, and the opposite Tips are on both longitudinal edges. The elements are on the Core axis attached at equal distances from each other. They are on top of each other one after the other in the same direction and under the same Chen angle twisted. They are fixed by means of three pins and three openings, whereby the smooth surfaces of the elements follow one after the other. Under both initial peaks smooth surface of each element lie the surfaces, which by the angle connecting the opposite halves of both longitudinal edges of the second surface are formed. Both are located under both end tips of each element Initial peaks of each next element.

A variant is possible in which the second surface of each element tes, the vertical to the axis of the dense cylinder, from which the elements are cut out ten, has no inclined longitudinal edges.  

Another variant is possible in which the elements are fixed by means of two pins and a bolt with expansion sockets, which ver through an opening run, is realized. This opening is due to the geometric axis of the elements drilled, which one with two in the thread of the two bolt ends twisted nuts are tightened.

In a further preferred embodiment, the distance is between the elements is 0.5 to 6 mm.

The advantages of the device according to the invention for hydrodynamic ultrasound Processing, mixing and homogenization of liquids are in the higher we Degree of hydrodynamic ultrasound treatment with low hydrauli to see resistance.

There are now several ways to teach the present invention advantageous to design and develop. This is on the one hand on the claims subordinate to claim 1, on the other hand to the successor Explanation of embodiments of the invention with reference to the drawing to refer.

In conjunction with the explanation of the preferred embodiment games of the invention with reference to the drawing are also generally preferred Refinements and developments of teaching explained. In the drawing shows

Fig. 1 a longitudinal section of an embodiment of the inventive device for hydrodynamic ultrasonic processing, mixing and homogenizing,

Fig. 2 is a schematic view of one of the core elements of the article of Fig. 1 on the side of the surface with the inclined opposing halves of both opposite edges of Left,

Fig. 3 is a schematic view of the element shown on the right in Fig. 2,

Fig. 4 is a schematic view of the element in Fig. 3 shown from the left,

Fig. 5 in a cross section along the line AA, the element of Fig. 3,

Fig. 6 in a cross section along the line BB, the element of Fig. 3,

Fig. 7 in a cross section along the line CC, the element of Fig. 3,

Fig. 8 in a cross section along the line DD of Fig. 3, the fiction, modern apparatus, through the left end element of the core

Fig. 9 in a cross section along the line EE of FIG. 3, the device according to the Invention through the right end element of the core and

Fig. 10 in a longitudinal section a second embodiment of the device according to the Invention for hydrodynamic ultrasonic processing, mixing and homogenization of liquids.

According to the Fig. 1 the device consists of the body 1 with an opening, wherein the core 2 is mounted. The body is closed with the cap 3 , the axis of which is connected to the axis of the body 1 . The cap is clamped to the body by the screws 4 .

The opening of the body 1 has a cylindrical part 5 , a cone part 6 and a threaded part 7 .

The cap opening consists of a cone part 8 and a threaded part 9 .

The core 2 in Fig. 1 consists of a sealed cylinder which is divided into slices by transverse planes. Nine elements 10 are formed therefrom. Each of the elements 10 (one of which is an element in FIGS. 2, 3, 4, 5, 6 and 7) is formed by cutting out two identical segments with parallel chords from each disc between two adjacent transverse planes. The one surface of each Ele mentes 10 in Fig. 3 and Fig. 4, the vertical to the axis of the airtight cylinder, from which the elements are cut is located, is smooth. The opposite halves of the two opposite longitudinal edges of the second surface 12 lying vertically to the axis of the dense cylinder lie at one and the same acute angle to the smooth surface 11 , namely in the vertical direction to the transverse edge and at one and the same acute angle to the smooth surface 11 , in the vertical direction to the longitudinal edge, so that the second surface 12 of each element 10 in Fig. 2, which lies to the axis of the dense cylinder from which the elements are cut out, with parts of the two side surfaces 13 with smooth surfaces 14 , of the same triangle shape , connected is. On the surface 12 of all the elements 10 , of which the core 2 in FIG. 1 consists, except for the right end element, there are three identical blind openings, in which the fixing pins 15 and 16 in FIGS . 5, 6 and 7 are attached. On the surface 11 of all the elements 10 , of which the core 2 in FIG. 1 consists, taken from the left end element, there are openings 17 and 18 of the same shape, in which the fixing pins 15 and 16 . The elements 10 are on the axis of the core 2 at equal distances from each other (2 mm), wherein they have been successively rotated to each other, in one and the same direction (counterclockwise) and at the same angle (19 °). They are fixed by means of the pins 15 and 16 and the blind openings 17 and 18 , their smooth surfaces following one after the other. Under both initial tips of the smooth surfaces 11 are the smooth surfaces 14 , which are of a triangle shape, and under both end tips of each of the previous element 10 are the two initial tips of the next element 10 .

When the core 2 is attached to the cylinder part 5 of the opening in the body 1 , two step-like, interrupted, connected screw channels 19 are formed. They are limited by the areas of the elements 10 and the cylindrical area of the opening (see FIGS. 8 and 9). Another embodiment of the device according to the invention is shown in Fig. 10, which shows a longitudinal section of the device.

According to Fig. 10 the device consists of the body 1 with an opening, wherein the core is plugged in. 2 The same is fixed by means of the rings 20 . The ele ments 10 (see. Fig. 3, 4, 5, 6 and 7) of the core 2 are fixed to each other by means of pins 15 , blind openings 17 and the bolt 2 . The bolt goes through the holes drilled in the geometrical axis of the elements 10 . The end parts of the bolt are provided with threads, on which both nuts 22 are screwed. Between each two adjacent elements 10 of the bolt 21 , expansion sockets 23 are introduced .

The effect of the device according to FIGS. 1 to 10 is as follows:
The liquid comes from the entrance of the device in the direction indicated by arrow F1 ( FIG. 1) and flows to the two stepped, interrupted, connected screw channels 19 . On its way it meets the smooth surfaces 11 of the ele ments 10 of the core 2nd Local zones are formed over the smooth surfaces 11 with increased pressure, turbolization, mixing and homogenization of the liquid. Part of the liquid runs to both openings between the two adjacent elements. The zone formed behind them has a reduced pressure. During the transition from the zone of higher pressure to the zone of lower pressure, ultrasonic vibrations are generated in the liquid. They perform ultrasonic processing and improve the degree of mixing and homogenization of the liquid. The liquid leaves the step-like, interrupted and connected channels 19 and passes through the outlet of the device in the direction of arrow F2.

Claims (4)

1. A device for hydrodynamic ultrasound processing, mixing and homogenization of liquids, consisting of a body with an opening and a cap with an opening. In the body opening is a core with two step-like spiral channels. The device is characterized in that the core ( 2 ) from egg nem dense cylinder, which is divided by transverse planes of equal distances between each other in slices. The elements ( 10 ) are formed from the disks. Each of the element ( 10 ) is formed by cutting out two segments of the same type with parallel chords from the two adjacent Quereben. One surface ( 11 ) of the elements ( 10 ), which is vertical to the axis of the sealed cylinder, is smooth. The opposite halves of the two opposite edges of the second surface ( 12 ), which is vertical to the axis of the dense cylinder from which the elements ( 10 ) are cut out, are inclined at one and the same acute angle to the smooth surface ( 11 ) in Vertical direction to the transverse edge and at one and the same acute angle in the vertical direction to the longitudinal edge. The elements ( 10 ) are lined up on the axis of the core ( 2 ) at equal distances and in the same direction. They are rotated in succession at the same angle in one direction. Their smooth surfaces ( 11 ) follow one after the other. Under the two initial tips of the smooth surfaces ( 11 ) lie the smooth surfaces of a triangle shape ( 14 ), which have been formed by the angular connection of parts of the two longitudinal edges. Under the two end tips of each preceding element ( 10 ) are the two initial tips of the next element ( 10 ). The elements are fixed to each other by the pins ( 15 and 16 ) and by the blind openings ( 17 and 18 ). Both step-like screw channels ( 19 ) are interrupted and connected. They are limited by the areas of the element ( 10 ) and the cylindrical area of the opening in the body ( 1 ). 2. A device for hydrodynamic ultrasound processing, mixing and homogenization of liquids according to claim 1, which is characterized in that the second surface ( 12 ) which is vertical to the axis of the dense cylinder from which the elements ( 10 ) are cut out , has no sloping edges. 3. A device for hydrodynamic ultrasonic processing, mixing and homogenization of liquids according to claim 1, which is characterized in that the fixation of the elements ( 10 ) to each other by pins ( 15 ), blind openings ( 17 ), a bolt ( 21 ), which goes through a through its geometric axis, expansion sockets ( 23 ) and nuts ( 24 ). 4. A device for hydrodynamic ultrasonic processing, mixing and homogenization of liquids according to claim 1, which is characterized in that the distance between the elements ( 10 ) is 0.5 to 6 mm.