DE1224708B - Device for mixing flowing media with stationary guide elements - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

BOIf

German class: 12 e - 4/01

Number: 1224 708

File number: N19001III / 12 e

Filing date: October 4, 1960

Opening day: September 15, 1966

The invention relates to a device for mixing flowing media with stationary guide elements, which the mixed components are fed combined to form a main stream, which the First divide the main flow into at least two partial flows and these in a different geometric arrangement combine to form a new main stream of the same cross-section, in particular with guide elements, whose channels have two adjacent, equally large input cross-sections in the form of rectangles have, which fill the inlet cross-section of the guide element, the channels initially narrow to two diagonally opposite squares of half a rectangular cross-section and finally expand again to adjacent size, but rotated by 90 °, according to patent 1 178 404.

Mixing devices of this type have the advantage that an intensive mixing of liquids can be achieved to any desired degree of fineness without the need for agitation Mechanisms to use. Another advantage of these mixing devices is that they consist of identical individual elements can be put together by stringing them together. The intensity the mixture can be varied by changing the number of these elements.

However, these mixing devices also have disadvantages. So it is z. B. as a result of the assembly mixing devices made of loosely assembled guide elements difficult, leakage flows (Leakage losses) within the mixer itself. Among other things, this has the consequence that parts the liquids to be mixed do not cover the prescribed path through the channels, thereby causing poorly mixed sections to appear in the finished mixed stream. It is also possible that such leakage flows exit from the interior of the mixing device to the outside.

Particular deficiencies can result from these leakage flows when liquids are mixed whose chemical nature changes over time. This applies e.g. B. then to when blending viscose. If the leakage flows are faster than the mixed flows, result layers of liquid with less maturity. In most cases, however, the leakage currents are significant slower than the mixed currents flowing through the channels, with the result that in the ready-mixed Fluid sections with severely aged fluid or even clots may occur. In particular these clots are a very troublesome consequence.

Device for mixing flowing media
with stationary guide elements

Addendum to the patent: 1178 404

Applicant:

N. V. Onderzoekingsinstituut Research, Arnhem

(Netherlands)

Representative:

Dr. E. Jung, patent attorney,

Munich 23, Siegesstr. 26th

Named as inventor:

Robert Sluijters, Arnhem (Netherlands)

Claimed priority:

Netherlands of October 13, 1959 (244 295) -

Great efforts have already been made to achieve a satisfactory seal between the guide elements to achieve. An attempt was made to prevent leakage flows along the elements thereby preventing them from becoming trapped between layers of elastic material, the are sealed against the guide elements. Apart from the fact that this results in a very complicated construction, it turns out that there are still leakage losses against the outside or along the guide elements and in particular occur between their interfaces.

All of these inconveniences are now avoided by the inventive design of the mixing device. There is an absolute seal inside the mixing device against leakage flows achieved without complex constructions or large sealing forces are required.

The invention consists essentially in the fact that the guide elements are made of elastic material, preferably Rubber, manufactured and slidably inserted into a housing tube, the axial length of which is shorter is than the total length of the guide elements, and that the guide elements by compression in axial Direction are fixed in the housing tube.

609 6bu / 360

3 4

With this training it is not necessary, because it is not necessary that they be an exact one

To seal the housing walls against the guide elements. represent a flat surface.

A compression of the elastic guide elements This is due to the fact that the vorsprinhas namely the consequence that they mutually deviating edge strips with less contact pressure be sealed and that they are more deformed with their outer 5 and pressed together more tightly The jacket becomes absolutely liquid-tight on the housing wall than is the case when the entire forehead is pressed against it. . surfaces lie next to each other. By arranging the

The sealing is all the better, the higher the edge strips around the channel mouths

is the fluid pressure prevailing in the channels. tote in the channels inside the mixer

This is due to the fact that 10 angles are avoided as a result.

of the increased fluid pressure, the contact surfaces around the elements according to the invention to bring the guide elements even more tightly to one another, their end faces are to be pressed, surfaces preferably with tenons and corresponding

The assembly of the mixing device is provided with very generating recesses,

easy to perform because the vanes are slidable in FIG. 15 However, in some cases it has been found that

the housing fit if they do not fit together - even if the position does not exactly match

are pressed, and therefore simply one after the one of the individual elements, the tenons of an element

others can be inserted. enter the recess of the other element.

Although different elastic materials for this is possible because the elements are made of white

Production of the guide elements according to the invention 20 consist of chemically elastic material and the Zap-

are useful, it has been shown that an elastic fen and deform the recesses so much

Material with a very low volume expansion can mean that they nevertheless interlock. This is

such as rubber, is particularly suitable. possibly associated with uneven surfaces

It was found that those from such passed between the elements or with one elastic material made guide elements a partial overlap of the protruding edge sufficient Seal even with smaller pressure strips. If the latter occurs, between the forces result, as this is the case with guide elements guide elements arise in which large blind spots made of other elastic materials. fluid builds up.

An explanation for this can possibly be found in This disadvantage cannot occur if the can be seen that the compressed EIe- 30 guide elements with extending in the longitudinal direction V-shaped grooves form at one or more points under the influence of the fluid pressure in the canals it is difficult to further deform their outer jacket, in which round, can and therefore guide the fluid pressure over the entire length of the housing, than when the elastic material itself is inserted into a support rod, which is the conductive fluid were. As a result, the liquid can elastically deform 35 elements in the area of the groove, no leakage gaps between the guide elements - If the guide elements along these rods into the call forward. The mixing device can therefore be introduced into a housing, is an incorrect versus lighter one Have construction, since on the guide elements side position of the elements is impossible. Because of the only a small pressure has to be exerted. low elastic deformation in the grooves

The outer casing of the guide elements and the element can only be inserted in the correct position along the housing tube, various cross-sectional shapes of the guide rods can be inserted,
to have. The cross-section can, depending on the course, in the drawing, the subject matter of the invention or the shape of the channels is square or rectangular on the basis of exemplary embodiments. According to the invention, however, it is illustrated beforehand.

drawn, the outer jacket of the guide elements and ⁴⁵ Fig. 1 is a longitudinal section through the mixing device

the housing tube has the shape of a circular cylinder without guide elements,

to lend. Due to the circular shape of the outer man- F i g. 2 shows the end flange of the mixing device

means, the guide element under the action of along the line II-II of FIG. 1,

Pressure forces expand in all directions and Fig. 3 is an end view of a guide element,

therefore more evenly on the inner wall of the 5o F i g. 4 is a longitudinal section and

Put on the housing. F i g. 5 is a rear view of the same element.

In this case, the housing can be made of handeis- In Fig. 1 this is the shape of a cylindrical

customary precision tubes are produced, with the tube having housing denoted by 6 on

the diameter of the pipe and the outer jacket, the two ends of which are flanges 34, 35 welded on

55 are chosen without difficulty in advance. In each of the flanges 34 and 35 are in the same

can that the desired seal and the chen mutual distances and on the same

Precise installation on the pipe is provided for a small pitch circle with eight holes alternating

Contact pressure is achieved. It was also smooth bores 36 and threaded bores 37 are,

round that the guide elements are more dimensionally stable when the flanges 34, 35. are with mating edges

the outer jacket has the shape of a circular cylinder 60 end flanges 26, 27 attached, which with several

sits. Holes 28, 29 are provided, which when together

Although the seal between the Leitelemenmenbau with the holes 36,37 are aligned. The holes th is also possible if their end faces are flat 28 countersunk conical so that the end flanges it has been found to be advantageous, as shown in FIGS. 26, 27, by means of screws 30 with a countersunk head of the invention at the end faces around the 65 can be pressed against the flanges 34, 35. The end flanges 26, 27 have a central look through. In this case, only these edge strips have to enter opening 31, which is smaller than the clear width of the be level to achieve a good seal and flange 35. This allows clamping

of several guide elements between the end flanges 26,27.

In Fig. FIG. 2 is the end flange 26 as viewed along line II-II of FIG. 1 shown.

Within the end flange, the cross-section of the central passage opening changes from a square into a circle, the circular cross-section being directed towards the center of the mixing device. The smooth ones Bores 36,29 are used to attach the mixing device between (not shown) feed and drainage pipes. These lines are also provided with flanges for this purpose, which have bores which correspond to bores 36 and 29. The clear expanses these lines correspond to the circular cross-section of the passage opening.

The end flanges 26, 27 are also provided with two large blind holes 32 and with two small blind holes 33. In the corresponding blind holes 33 of the end flanges 26 and 27, two rods 14 sit opposite one another in the housing tube 6 in the direction of the tube axis and in the vicinity of the inner wall of the tube. Eighteen guide elements (not shown) are housed in the interior of the housing tube 6. Of these, nine elements are designed like that in FIGS. 3, 4 and 5 shown element 5. The nine remaining elements are symmetrical with respect to a longitudinal section. The elements are arranged in the pipe so that the two types of elements alternate with one another.

From the F i g. 3, 4 and 5 it can be seen that the guide elements S essentially consist of cylindrical blocks each having two channels 15, 16 which initially narrow in the same direction, but in the opposite direction, and then narrow in the transverse direction, again in the in the same direction, but in the opposite sense.

The outside diameter of the guide elements 5 is slightly smaller than the inside diameter of the housing tube 6 so that the elements can slide in the tube. In the outer jacket of the guide elements 5 are two V-shaped longitudinal grooves 17, 18 are provided diametrically opposite one another. Have these grooves such a shape that the material must be elastically deformed to a small extent in order for the guide elements 5 can be pushed onto the rods 14 along the inner wall of the tube 6.

On the end faces of the guide elements 5 there are protruding edge strips 19, 20 around the channel mouths 15,16 arranged, along which the adjacent guide elements 5 rest against one another and thereby sealed against each other. The two outermost guide elements lie with their protruding ones Edge strips 19, 20 on the square edge 21 of the passage 31 in the end flanges 26, 27.

Each guide element 5 also has two pins 22, 23 on one end face and two recesses 24, 25 on the other end face, which lie opposite the pin. With the help of these pegs and recesses the adjacent guide elements are fixed in the correct position inside the pipe. the Pins 22 and 23 of the rightmost element in the tube 6 snap into the two holes 32 of the end flange a.

The material of the elements is natural rubber with a hardness of 65 to 70 Shore. This material is resistant to caustic alkalis. If acidic substances are to be mixed, a acid-resistant synthetic rubber can be selected.

The length of the mixing device between the edges 21 of the end flanges 26, 27 is somewhat less than the total length of the lined up guide elements 5, measured between the outermost projecting ones Edge strips 19, 20. When assembling the mixer, the guide elements are therefore in

ίο in the axial direction by tightening the screws 30 compressed, the end flanges 26,27 being pulled against the flanges 34,35. When squeezing the guide elements are simultaneously sealing in the radial direction against the inner wall of the Housing 6 pressed. In this way, both between the guide elements themselves and between this and the housing wall achieved a particularly good seal.

The mixing device according to the invention is particularly effective when mixing highly viscous Liquids such as B. viscose. There are, of course, various modifications to the embodiment described possible within the scope of the invention. Different dimensions can vary from the described embodiment differ. The ratio between the length and diameter of the mixer can be changed within wide limits as can the number of guide elements. on in this way any degree of fineness of the mixture can be obtained.

Claims (1)

Patent claims: 1. Device for mixing flowing media with stationary guide elements, which the mixed components are combined into one main stream and fed to the main stream first divide them into at least two partial flows and assign them in a different geometric arrangement unite a new main stream of the same cross-section, in particular with guide elements whose Channels two adjacent, equally large input cross-sections in the form of rectangles have, which fill the inlet cross-section of the guide element, the channels initially Narrow to two diagonally opposite squares of half a rectangular cross-section and finally expand again to an adjacent size, but rotated by 90 °, according to patent 1178404, characterized in that the guide elements are made of elastic Material, preferably rubber, manufactured and slidably inserted into a housing tube (6), whose axial length is shorter than the total length of the guide elements (5), and that the guide elements are fixed in the housing tube (6) by being compressed in the axial direction. 2. Apparatus according to claim 1, characterized in that both the outer jacket of the Guide elements (5) and the housing tube (6) the 6c has the shape of a circular cylinder. 3. Apparatus according to claim 1 or 2, characterized in that the guide elements on their end face edge around the channel mouths (15,16) with protruding edge strips (19,20) are provided. 4. Device according to one of claims 1 to 3, characterized in that the guide elements at their end faces with pegs (22, 23) and corresponding recesses (24, 25) are provided. 5. Device according to one of claims 1 to 4, characterized in that the guide elements are provided at one or more points of their outer jacket with longitudinally extending V-shaped grooves (17,18), and that round guide rods (14) are inserted into these grooves over the entire length of the housing tube (6) and deform the guide elements in the area of the grooves. Considered publications:
German patent specification No. 358 018. 1 sheet of drawings 609 660/360 9.66 © Bundesdruckerei Berlin