DE2262016A1 - Flow mixer tube with serial helical divider strips - with adjacent strips of opposite hand and defining constant total flow area - Google Patents

Abstract

A mixing appts. comprises a tube in which are mounted helical members to define a mixing zone, the helical members extending across the diameter of the tube, alternate helical members being of left-hand nad right-hand pitch, the trailing edge of one helical member being axially displaced from the leading edge of the subsequent helical member and arranged at an angle to the leading edge of the subsequent helical member so that passages are provided in the tube the total cross-section for flow of which is constant throughout the length of the mixing zone.

Description

Mixing device The invention relates to a mixing device with a tube in which screw elements one behind the other to form a mixing zone are arranged, which extend over the entire pipe diameter and alternate left and right. are helical, the trailing edge of a screw element runs at an angle to the leading edge of the following screw element, so that passages are created in the pipe, the total flow cross-section of which exceeds the length of the mixing zone is approximately constant.

In such a known mixing device that is to be mixed Material is pumped through the pipe, in two channels with approximately the same cross-section divided and rotated through an angle that is normally 90 ° or 1800, before it hits the second screw element, whereupon the two streams respectively in turn can be subdivided to produce four streams. These four streams become then again divided into eight streams, etc. The alternating left and right turn the screw elements ensure thorough mixing. The screw elements can by appropriately twisting or twisting a sheet or a other metal web are made, they can be molded from plastic or they can be made up of a series of rods that are helical arranged to each other and together for example with the help of an adhesive or by welding or soldering. As already mentioned, the trailing edge abuts a screw element of the known mixer to the leading edge of the downstream adjacent Screw element. These neighboring elements are usually made by welding or soldering attached to each other. Forms the entire series of screw elements a unit that is inserted into the pipe and, usually at the end, on the inner walls of the pipe is in turn attached by soldering or welding.

The production of such screw elements brings some problems to that extent with itself, as each screw element in a doctrine or a clamping device must be mounted in order to ensure the exact positioning in relation to the next, subsequent Ensure screw element before the two elements are attached to one another are.

To eliminate these problems, it is proposed according to the invention, to design the mixing device in such a way that the rear edge of a corner element axially opposite the leading edge of the (in the direction of flow) always following Screw element is offset. This can be done, for example, by appropriate overlapping the screw elements themselves can be achieved. In this case the leading edge lies of the screw element following in the flow direction in front of the trailing edge of the Previous element in each case.

Another proposal of the invention is that an intermediate member is arranged between successive screw elements, so that the leading edge of the respective following element downstream at a distance from the rear edge of the preceding one Screw element lies.

The screw elements or intermediate links are expediently and screw elements in their mutual position by making a notch or secured by notches. The inheritors can see for themselves in the snail elements so that two screw elements overlap each other0 It is also possible, however, to Notches in a screw element and in the end section one or several intermediate links or only in the end section of the intermediate link or the intermediate links to attach. In the case where the two adjacent screw elements notched, it may be convenient to use the leading and trailing edges of the adjacent To bevel the screw elements, whereby the bevel extends over the entire axial dimension the overlap extends so as to ensure that the two are on both sides of the Screw elements formed passages essentially over the length of the tube have a constant cross-section.

In one embodiment of the device according to the invention it is provided that the intermediate link is simply a flat plate which in turn cooperates can be notched with notches on the screw element.

Another proposal according to the invention is as an intermediate member to provide a bushing or sleeve which has an outer diameter that is approximately is equal to the inner diameter of the pipe. This sleeve itself can be provided with notches be. The notches are preferably diametrically opposite one another the two ends of the sleeve provided, the connecting lines between the two notches provided in each case at the ends of the sleeve are located under a certain one Cut angles, for example below 90 °.

Further features, details and advantages of the invention result themselves from the following description of preferred exemplary embodiments with reference to the drawing, in their Figures 1 to 6 schematically and partially in section six different Embodiments of a mixing device according to the invention are shown.

The device shown in Figure 1 comprises a tube 10 and a row of helically curved elements 11, 12 and 13. The number of screw or elements 11, 12, 13 bent in the shape of a helix can be adapted to the åeweils the mixing process to be carried out can be selected. For the sake of simplicity of illustration However, only three elements were shown in the drawing. The leading edge 14- each Element 11, 12, 13 is provided with a central notch 15, the width of which Thickness of the screw elements 11, 12, 13 is the same. The trailing edge16 is with a Similar notch 17 is provided so that when the two notches interlock Adjacent elements a fixed storage of these elements is achieved. Be it also mentioned 'that the middle screw element 12 is opposite to the two outer elements 11 and 13 is coiled or curved.

If desired, a mixing device for a specific mixing process to design, so will a certain number of the. elements shown Connected screw elements in the specified manner. The facility can then through this be checked that the material to be mixed is pumped through the pipe, for example with a positive entanglement pump. When the materials to be mixed are the leading edge of the first screw element 11 touch, the incoming stream will be divided into two parts divided. These two parts are twisted towards each other. Then the current hits onto the leading edge of the next screw element 12. This element divides again the already subdivided stream so that four streams are effectively formed, which in turn by the element 12, which is opposite to the element 11 curved or is twisted, be turned back. This process is sequential repeated, whereby an intimate mixing can be achieved. With the device respectively.

the device according to the invention it is possible with the number of the elements required to experiment and the minimum number of elements necessary to carry out the mixing process effectively.

By choosing the minimum number, the flow resistance is reduced to the reduced to the lowest possible value. After carrying out the experiments described above should at least the end-side screw elements against axial and rotational movement be secured in the tube 10, which by welding the end elements or by their fixing by means of some kind of locking ring or snap ring can be reached.

If you choose the gap width approximately equal to the thickness of the screw element, this prevents mutual rotation between adjacent elements.

It should be noted that within the pipe there are a number of zones exists in which two elements overlap each other. Has within these zones the thickness of the two adjacent screw elements has the effect that the the cross section of the pipe available for the flow is reduced. The embodiment of Figure 2 is capable of overcoming this difficulty Elements 18, 19 and 20 are similar to elements 11, 12 and 13 of Figure 1, with the exception, however, that the end sections 22 and 23 are chamfered, wherein the bevel forms an isosceles triangle in cross section. The end notches 24 and 25 of this embodiment are isosceles trapezoidal so that at Interlocking of two such notches, the two screw elements against rotation are secured to each other. Measured in the axial direction, the height of the notches is the same half the height of the bevel or

of the chamfered area so that two chamfers exactly match each other overlap. In this embodiment, the material flow is available Cross-section kept constant over the entire length of the pipe.

Another possible embodiment of the subject matter of the invention is in Figure 3 illustrates where a flat intermediate plate 26 between two successive Screw elements 29 and 28 of opposite curvature is inserted The screw elements 27 and 28 are provided with notches 29 and 30 in their rear and front edges In a similar way Way, the intermediate plate 26 is also provided with notches, those with notches 29 and 30 in the manner described with reference to FIG cooperate. In this arrangement, the leading edge of a screw element lies in the same plane as the trailing edge of the previous screw element. However, the flat intermediate plate is at a right angle to this plane arranged to ensure a further division of the current.

Figure 4 illustrates another construction in which the two Screw elements 32 and 33 only have a curvature of 900 compared to that of 1800 at have previous embodiment. Again, have the leading and trailing edges 35 and 36 notches 37 and 38, respectively. A flat plate 39 between the screw elements serves to keep the leading and trailing edges spaced apart. At this Embodiment is the leading edge of an element perpendicular to the leading edge of the preceding or subsequent element.

Figure 5 illustrates a further embodiment in which between around 1800 twisted screw elements 40 and 41 a cylindrical bush or Sleeve 42, the outside diameter of which is approximately equal to the inside diameter of the tube 45 is arranged. Notches 46 and 47 in the sleeve 42 are used to adjust the front and rear edges of the screw elements 40, 41. If necessary, further L-shaped Notches in the radially outer areas of the front and rear edges be provided which fit into the notches. However, these L-shaped notches are not mandatory.

The mixing device shown in FIG. 6 is similar to that of the figures 3, 4 and 5, as the leading and trailing edges of adjacent screw elements 48 and 49 are spaced apart and do not overlap. at In this embodiment, however, the edges are through an intermediate member in the form of a central rod 50 held at a distance from one another. The central rod 50 and / or the screw elements 48 and 49 can be notched to facilitate assembly be.

In the embodiments of Figures 3, 4, 5 and 6, the intermediate member preferably a cross section which is approximately the same as that of the screw elements, see above that a free flow passage remains through the tube, the cross-section of which in is roughly constant. To support this endeavor, the constructions Figures 3 to 6 can be varied according to the embodiment of Figure 2, by making the overlapping sections by using tapered front and trailing edges in the area of the overlap between the screw elements and the pontics are bevelled or tapered. If necessary, the pivoting or. Driliwinkel be other than 1800 or 900. It can take on any suitable value.

To pump the materials to be mixed through the pipe preferably a screw pump is used, which has a screw-shaped inner Element, usually the rotor, and a cooperating outer element, usually the stator, which is preferably compliant, where the number the beginnings of the worm gear or the worm shape on the inner and outer Link by Dins differs.

It is easy to see that the mixing device according to the invention can be set up very easily. The screw elements can be manufactured in this way that two long strips are twisted, one strip with a left turn, the other with a right turn, and that then the twisted strips are divided into the individual screw elements. These elements can then be notched and mated together with or without the intermediate links these as appropriate, without the need for any Teaching or the like.

to use. Optionally, the screw elements can after Assemble welded or soldered.

However, this is usually not necessary.

Claims (10)

Patent (protection) claims Mixing device with a tube in which one behind the other to form a mixing zone screw elements are arranged, which extend over the entire pipe diameter extend and are twisted alternately left and right, with the trailing edge of a screw element at an angle to the leading edge of the following screw element ' runs, so that passages arise in the pipe, their total flow cross-section is approximately constant over the length of the mixing zone, characterized in that the Rear edge (16,36) of a screw element (11-13; 18-20; 27, 28; 32,33; 40,41; 48.49) axially opposite the front edge (14.35) of the following screw element is offset. 2. Mixing device according to claim 1, characterized in that the rear edge (16,36) of one screw element (13,33) and / or the front edge (14,35) of the following screw element is provided with a notch (1?, 25), into which the respective other element engages, so that the leading edge of the following Element is upstream opposite the trailing edge of the preceding element. 3. Mixing device according to claims 1 and 2, characterized in that that the overlapping sections (22) of the screw elements (11-33; 18-20), to keep the total flow cross section constant over the length of the Mixing zone are bevelled. Mixing device according to claim 1, characterized in that a Intermediate link (26,39,42,50) between successive screw elements (27,28,32,22; 40.41; 48,49) is arranged, so that the front edge (36) of each subsequent Element downstream at a distance from the rear edge (35) of the preceding screw element lies. 5. Mixing device according to claim 4, characterized in that the intermediate member is designed as a hollow cylinder (42). 6. Mixing device according to claim 5, characterized in that the outer surface of the hollow cylinder (42) rests against the inner surface of the tube (10). 7. Mixing device according to claim 4, characterized in that the intermediate member is a central rod (50) which extends along the pipe axis between adjacent screw elements runs. 8. Mixing device according to claim 4, characterized in that the intermediate member is designed as a plate (26, 39) which extends transversely in the tube. 9. Mixing device according to one or more of claims 4 to 8, characterized in that the snow cap elements (27, 28; 32, 33; 40, 41; 48, 49) and the intermediate links (26,39,42,50) overlap somewhat. 10. Mixing device according to claim 9, characterized? that the overlapping sections of the intermediate members (26,39,42,50), and the Screw elements (27.28; 3? ,, 33; 40.41; 48.49> to keep the Total flow cross-section over, the length, of the mixing zone are beveled. L e r s e i t e