The present invention relates to a mixing blade comprising a base part fixable to a shaft and a removable wearing element.
A corresponding mixing blade is known from German Utility Model no. 203 07 420.3 and the corresponding EP 1 477 218 A. In the case of the known mixing blade, the tip of the mixing blade is formed as an interchangeable element and has a cross-section (perpendicular to the longitudinal direction of the mixing blade) matching the adjacent section of the mixing blade.
Mixing blades of this kind are provided for use in mixers in which grained, abrading materials are processed.
In the prior art, mixers are known which have one or more mixer shafts arranged perpendicular to the bottom of the mixing vessel, which shafts are provided with radially extending mixing blades arranged in several planes. In general the mixing blades are essentially of a rectangular cross-section, wherein this cross-sectional shape is sometimes also tapered towards the front edge of the mixing blade, so that the mixing blades have the shape overall of a flat, unilaterally rectangular trapezium. The front edge of the mixing blades is in this case the front edge in the direction of rotation of the corresponding rotor, which edge engages with the material to be mixed before the other parts of the mixing blade when the rotor is rotating. To achieve optimum mixing results, the front edge is often slanted in a knife-like manner, in order to give the processing material an axial movement component at the same time on penetration. The mixing blade base body generally comprises one piece and is manufactured from a comparatively soft material, such as for example structural steel. To protect against wear, the forward outer edges and the outermost end of the mixing blade as well as their immediate environment are protected by wear-resistant steel, a soldered-on hard metal plating or armouring. The armouring, preferably applied by build-up welding, can for example be made of a hard, wear-resistant coating, such as an alloy containing tungsten carbide. The thickness of the armouring is adjusted to the locally different wear effects acting on the mixing blade.
In the case of the known mixing blades, it is regarded as disadvantageous that these are frequently only interchangeable as a whole. The replacement of the wear-resistant coating or armouring is normally very laborious and cannot be carried out in the installed state. For refurbishing the mixing blades must therefore be completely dismantled.
From the above-named German Utility Model a mixing blade is already known on which solely the tip of the mixing blade can be exchanged separately from the remaining mixing blade, wherein it should be taken into consideration that precisely the tips of such mixing blades are among the most heavily wearing parts of a mixing blade due to the higher rotational speed.
Removable parts of mixing tools are also known from various other documents. DE 200 04 488 describes a mixer blade attached to a bracket protruding radially from a mixer shaft, in particular a bottom blade for concrete mixers, with removable blade tip.
As already mentioned, the mixing blades are loaded in an abrading manner in operation due to the material flows flowing over them at differing speed. In this process they are subject to wear of considerably differing intensity over the length and they wear preferably at their outer end, as the highest rotational speed prevails there. In the case of a rectangular cross-section slanted to the front in a knife-like manner, however, the forward edge is exposed to especially high wear in addition to the outer end of the mixing blade. This is especially true if coarse-grained products such as broken stone, for example, are contained in the mixture. When such coarse-grained constituents strike the front edge of the mixing tool, the narrower this edge is formed, the greater the mass of the individual coarse-grained constituents is and the harder these constituents are, the more the edge is stressed.
Due to the oblique face of the blade adjacent to the edge, the product is deflected accordingly upwards or downwards. The area of the cross-section adjacent to the bevel is considerably less affected by wear than the front edge including the bevelled faces. As soon as the armouring on the forward edge of the mixing blades is worn or removed, the soft base material located underneath is worn all the more easily and is subjected to very strong abrasion, which also encompasses areas of armouring still existing to some extent. This can lead to entire portions of the wear protection and the base body breaking out, which can lead to damage or even stoppages at downstream machines.
In operation, therefore, the complete mixing blades, which are normally fastened removably to the central mixer shaft, must be exchanged at regular intervals, even if only small parts of the mixing blade have been worn down to the base material and the wear protection is still sufficiently thick in other places.
A mixing blade with removable end piece only partially solves the problem, as it is entirely possible that occasionally even sections of the mixing blade lying radially inside the removable end piece have experienced heavier wear. In such a case the entire mixing blade nevertheless has to be exchanged. Furthermore, a gap can arise at the joint location due to permanent impact stress due to very coarse-grained products on the tip of the mixing blade, into which gap fine product jams and leads to elongation of the screw connection until it fails. Substantial elongation of the fixing means until they fail can occur also when using a removable end piece of solid carbide and very high rotational speeds, due to the great centrifugal forces on the mixing tool.
A marked extension of the end piece, which would include a perceptibly larger section of the mixing blade than just its tip, is likewise not a satisfactory solution to the problem, because then the saving on exchange of the end piece compared with a complete exchange of the mixing blade would only be relatively small.
Compared with this prior art, the object of the present invention is to create a mixing blade of the type stated at the outset which exhibits improved economy overall.
This object is achieved by a mixing blade which, in addition to the features stated at the outset, is characterized in that the wearing element (13) and the base part (15) overlap over at least 30% of the length of the base part and in this overlapping section define different areas of the cross-section of the mixing blade (6).
Here the length of the base part is measured from its radially inner end to be fixed on the shaft or corresponding bracket elements as far as the radially outer tip.
Due to the fact that the wearing element and the base part have different cross-sections and overlap in the longitudinal direction of the base part over a larger section of at least 30%, it is possible for one thing to exchange a larger section of the mixing blade without the entire remaining section of the mixing blade having to be removed or exchanged over its full cross-section.
According to the preferred embodiment, the wearing element forms at least the radially outer third, preferably at least the radially outer half of the front edge of the mixing blade in the running direction.
In this case the wearing element can form, in addition to the front edge, also the entire tip or the entire end piece of the mixing blade and thereby cover the cross-section of the tip of the base part either completely or at least partially.
This configuration makes it possible to exchange the worn parts of a mixing blade, to which the end piece and the radially outer half of the front edge normally belong, as required without the other parts, namely the base body of the mixing blade, also having to be exchanged. The exchange of the wearing elements can thus be restricted to the parts or areas that are actually exposed to increased wear and which apart from the end piece or the tip of the mixing blade also include its front edge at least in the radially outer 30% of the (radial) length of the mixing blade.
Here an embodiment in which the wearing element is formed in several parts, and comprises for example a front edge section and an end section or a tip of the mixing blade, which can be attached separately to the base part of the mixing blade, is particularly preferred.
According to a first embodiment, the wearing element has a rectangular shape in the top view and fills a correspondingly rectangular recess in the base part, wherein the corner areas are more or less strongly rounded (in part to avoid notch loads). In the top view, for example, the wearing element forms roughly the front half or the front third (measured respectively from the front edge) of the entire mixing blade, while the rear part of a mixing blade is formed by the base body, which can be made of a less hard material, but one which is easier to work.
Furthermore, an embodiment of the invention is preferred in which the cross-section of the wearing element is formed tapered towards the front edge. This knife-like formation with oblique leading faces contributes to particularly good mixing due to the vertical movement of the mixing material thereby produced, wherein the sharp front edges also ensure commination of coarse-grained constituents or of agglomerates. However, sharp front edges here also means configurations in which the front edge of the mixing blade is not formed “razor-sharp” in the narrower sense, but rather the edge is markedly narrower than the maximum thickness of the mixing blade (measured in the direction of the axis of the related rotor), thus for example only comes to ¼ to 1/20 (or even less) of this thickness.
It is particularly preferred if the wearing element has the shape of a rectangular trapezium in cross-section, i.e. of a trapezium with one rectangular end and one end tapering at a relatively small angle, wherein the point defined thereby can also be somewhat bevelled or rounded off.
The connection between wearing element and base part is produced preferably via studs from the rear of the base part through holes in the base part, wherein the studs engage in threaded holes in the rear of the wearing element. The threaded holes can also be inserted or soldered-in threaded bushes.
According to an alternative embodiment, the wearing element defining the greatest part of the front edge has a cross-section decreasing from the tip of the blade in the direction of its radially inner end, while the base part has a correspondingly increasing cross-section in the same area. Here the cross-section decreases or increases essentially only in the direction of the width of the mixing blade, i.e. in the direction measured from the front edge towards the rear. With a cross-section decreasing continuously at the same rate, the shape of a right-angled triangle with one relatively acute angle for the wearing element then results in the top view from above. The end with the acute angle lies closer to the radially inner end of the mixing blade, i.e. towards the shaft. A still greater part of the harder and more expensive wearing material can be saved in this way, as the wear decreases more and more towards the radially inner sections of the mixing blade and less wearing material is needed there accordingly.
A modification of this, which is however based essentially on the same basic idea, is a shape which appears roughly Z-shaped in the top view or in which, starting out from the triangular shape just described, the two tips of the triangle (with angles smaller than 90°) are cut off. A further variant has approximately an L-shape, wherein the longer L-leg forming the front edge of the mixing blade widens continuously, however, in the direction of the second L-leg. A third modification of the triangular basic shape (narrower wearing body towards the middle, which becomes increasingly wider towards the outside) has a curved joint location, thus replaces the hypotenuse of the triangular shape initially described by a concave (or also convex) curve.
Further advantages, features and application options of the present invention result from the following description of preferred embodiments and the related figures. There are shown in:
The rotor 5 comprises a polygonal shaft (not shown), on which several tool holders 9 are arranged movably above one another. The mixing blades 6 are hooked in grooves 10 of the tool holders in pins (not shown) with the aid of the hole 11. The column of tool holders 10 with mixing blades 6 is braced for operation by a suitable removable connection. In an alternative embodiment, the mixing blades 6 are joined in one piece to the rotor 5. It is not absolutely necessary for the effectiveness of the invention that the mixing vessel 2 rotates and the rotor 5 is arranged eccentrically in the mixing vessel 2. In addition to the use of a stationary vessel 2, in which one or more rotors rotating about their vertical or inclined axis rotate in an orbit about a sun wheel arranged centrically to the centre of the mixing vessel, the rotor 5 can likewise be arranged with the mixing blades according to the invention centrically in a stationary mixing vessel. The mixing blade according to the invention could also be used radially from a rotor running horizontally which is arranged in a horizontal stationary mixing vessel.
The mixing blade 6 in
In
In the width of the mixing blade, the wearing element accounts for roughly 20% to 80%, preferably 30% to 70% and particularly preferably between 50% and 60% of the total width.
The removable wearing element 12 and the base body 15 of the mixing blade 6 are formed as separate components. As
The detachable connection and securing against torsion can be achieved in various ways, for example by two or more screw connections 14 (
In the variant in
This distribution of wearing material with a concentration of the material in the area of the tip and less and less wearing material towards parts lying further inwards radially largely corresponds to the actual wear characteristics in use, so that it can be assumed that after a certain time, if an exchange of the wearing element 13 is due, this exhibits uniform wear relative to the different quantity of wearing material at different radial positions over its entire length.
In
As shown in
In the embodiment according to
To protect the lower front edge of the flange 20 or the base body 15 against wear, the wearing element 12 has on its front edge a projection 28 protruding downwards, which covers the front edge of the flange 20.
If desired, the front edge of the wearing element 12 can nevertheless be designed likewise sharp or narrow as in the example of
In
A preferred embodiment of the invention is shown in
A particularly preferred embodiment of the invention is shown by the isometric sectional view in
For purposes of the original disclosure it is pointed out that all features as they become apparent to a person skilled in the art from the present description, the drawings and the claims, even if described specifically only in connection with certain other features, can be combined both singly and in any combinations with other features or groups of features disclosed here unless this has been explicitly excluded or technical conditions make such combinations impossible or senseless. The comprehensive, explicit illustration of all conceivable combinations of features is dispensed with here only due to the brevity and readability of the description.
Number | Date | Country | Kind |
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10 2005 019 010 | Apr 2005 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2006/061131 | 3/29/2006 | WO | 00 | 10/22/2007 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2006/111455 | 10/26/2006 | WO | A |
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Number | Date | Country |
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202004013332 | Jan 2005 | DE |
1477218 | Nov 2004 | EP |
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Number | Date | Country | |
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20090219782 A1 | Sep 2009 | US |