The invention refers to a screen star, in particular for a screen machine, wherein the screen star is designed essentially disc-like and can be arranged on a shaft, wherein coming from the center of the screen star at least two outward-extending star fingers, points or the like are provided. The invention also refers to a screen machine with a screen star of this kind.
Screen machines of this type are known. They consist of a number of screen bodies in rows one beside the other forming a surface, consisting of screen stars. These are arranged spaced apart from each other on shafts. Between the single screen stars spaces are arranged, so that the screen stars of two shafts arranged staggered to one another are able to engage in the spaces of the other screen stars. The stars of the single rows are here pivoted on axles or shafts. For the screening process the stars are set in motion and engage during the rotary motion, as already mentioned, into one another. The distance of the stars and/or their offset determine the filter or grain size of the screened material. The material usually configuring the stars is synthetic, hard rubber or the like. For harder filtered materials, such as, for example, crushed stone, also steel can be used.
Screen machines of this type can be used in many ways. They are used, for example, for screening crushed stone, shredded material, compost or also binding soil material, pebbles, sand or the like. If humid or heavy material is screened, there is the problem that the screens or the spaces between the screen stars are clogged by adhering material. Cleaning the soiled screens causes big problems in practice. For that the screen machine has to be stopped and cleaned. In the past attempts have been undertaken to solve this problem by a number of technical innovations. The stars have been provided, for example, with naps or laminas that are supposed to strip the material during the rotary motion. The effect of devices of this kind is here very limited and the wear large. Repairs caused through this and also the standstill times of the screen device cause high costs and loss of time.
A prior application by the applicant suggested providing a cleaning cylinder arranged spaced parallel to the star axles arranged in one plane. A cleaning cylinder of this kind may result in rather good cleaning, however, is quite expensive to produce and maintain.
Therefore it is an object of the invention to generate a cleaning function for screen machines of this type that is simpler, does not get soiled so often and has, in particular, a high degree of auto-cleaning.
The invention refers to the state of the art described before, and suggests a screen star, in particular for a screen machine, wherein the screen star is designed essentially disc-like and can be arranged on a shaft, wherein referring to the center of the screen star at least two star fingers extending outward are provided, and the screen star is characterized in that the length of the star fingers differs. Thus it becomes possible to get an excellent cleaning effect as through that in different distances the star fingers engage in spaces, and can remove material adhering there without any problems. Now the machine does not have to be stopped especially for cleaning, but is able to screen also humid material sufficiently, and it is not necessary to fit in certain cleaning circles. Even clamped foreign bodies, such as for example stones, are removed by the different length of the star fingers without any problems. The invention comprises at the same time several solutions. Thus it is, for example, sufficient when a single star finger of the screen star has a length differing from the other star fingers with reference to the center of the screen star. However, it is also possible that, for example two star fingers have the same length, and all other star fingers differ from this length, that means they are shorter.
According to this an advantageous development of the invention is characterized in that, with reference to the center of the screen star and its exterior circumference on the flying circle of the star fingers the screen star is configured non-symmetrically. In
However, the invention also comprises a solution according to another aspect, according to which the exterior circumference of the screen star is provided elliptically on the flying circle of the star fingers. Here, two essentially opposite star fingers have the same length, and the others are shorter. By designing this in the shape of an ellipse with reference to the flying circle of the star fingers, the result may be also a certain swinging on the exterior diameter of the star fingers of the screen machine during the use according to the purpose. However, the elliptical arrangement reduces this effect somewhat so that an undesired swinging of the entire screen does not occur here anymore.
It is also an advantage when the screen star is characterized by different lengths of each of the star fingers. Here also the achieved cleaning effect is excellent. The same goes for the next embodiment of the solution according to the invention according to which two opposing star fingers have the same length. This design also serves unambiguously for improving the cleaning effect caused by the screen motion itself, namely the rotary motion of the stars. It is not decisive here whether the two opposing shafts carry out a rotary motion in the same direction or in opposite direction.
The invention also comprises a screen star as described before characterized by an even number of star fingers. For example, the invention actually comprises providing six or twelve star fingers for the screen star. Of course, the invention also comprises a solution characterized by an odd number of star fingers.
According to the invention the star fingers are provided as tips, teeth, noses, hooks or the like designed rod-shaped or triangularly or trapezoid-shaped. The invention is not restricted here to a particular shape. However, a roughly star-shaped configuration or shape, seen from the side, has been accepted, where the star fingers are slightly half-round, and, as it will be described later on, their tips are preferably flattened.
As already mentioned, the invention is not restricted neither to an even nor an odd number of star fingers. Thus, the invention also comprises the configuration of the screen star with seven star fingers, nine star fingers or even with twelve star fingers.
A preferred embodiment of the invention is characterized in that the star fingers have on their outer ends flattenings or smoothings. These flattenings or smoothings serve for preventing clogging, for example by squeezing foreign bodies. Also the wear is minimized by a flattened design of the outer end of the star finger.
In order to increase the cleaning effect further, at least one of the star fingers has on its end or on the flattening a lug. This lug is, for example, designed as nose, as tip, as peg, as elevation or the like. It is important, that this lug preferably does not take the entire surface of the flattening, but only a part, so that this lug serves actually for improving the cleaning effect.
Another modification of the invention provides that two lugs are arranged on roughly opposing star fingers, preferably the longest ones. This is completely sufficient as the lugs remain quite without effect when they are arranged on roughly shorter star fingers. However, this does not exclude that they are provided also there in order to loosen, if necessary, clogged material, that then can be transported by the longest star finger with its lug out of the space between two screen stars.
According to another aspect, the invention comprises a design where the screen star is formed of one piece of material as well as a design where the star fingers extend from a flange provided in the interior of the screen star outward. The screen star can be provided here in one piece together with flange and the star fingers. However, it is also possible, to mould or attach the star fingers on the flange.
Furthermore, the invention suggests providing an opening serving for attaching the screen star on a shaft or the like in the before described flange. This opening is here adapted to the shape of the flange, and can be accordingly designed circularly, oval, triangularly, squarely, rectangular, hexagonally or polygonal. Depending on the shape of the shaft used, also the opening in the flange of the screen star is manufactured correspondingly.
It is a particular advantage when the opening is designed correspondingly for receiving a shaft designed as profile shaft, in order to receive the hollow shaft in particular designed as profiled shaft positive and/or non-positive interlocking. These profiled shafts as hollow shafts, designed in particular hexagonally, are known for special purposes, and therefore serve also excellently for receiving screen stars according to the invention.
Furthermore, it is a particular advantage, when the opening, with reference to one of the star fingers, for example the longest star finger, is arranged shifted or twisted, in particular to make an offset of the star fingers around an angle of 15° to 90°, preferably 30°, possible. Thus, the star fingers can be arranged, seen, for example, with reference to the longest star finger, in a sort of spiral on the shaft. Furthermore, this has the advantage that the cleaning effect is improved further, and the effect is, in particular, that swinging of the entire screen device is avoided completely by this configuration, as this results in a certain mass compensation.
It is provided, according to the invention, that the screen star or the star fingers are formed, at least partly of a rubber-like or elastic material. It has proved here convenient to chose the material in such a way, that it is adapted to the conditions of the respective screen product. Thus, it has proved to be an excellent solution using a softer rubber material than it was used so far with compost soil. However, this does not exclude that also harder material is used, for example for screening crushed stone. The before described configurations of solutions of the screen star according to the invention can also be used for all other materials that are suited for manufacturing a screen star.
Another advantageous embodiment of the invention is characterized in that the screen star has in its center at least a reinforcement of sturdy material, such as for example metal, fiber reinforced synthetic material or similar stable material. To this sturdy material, for example to a flange, then the star fingers are attached. This has the advantage that the wear, that may occur by the transmission of power, for example on the shaft, if material is used that is not sufficiently sturdy, is avoided.
According to this, a modification of the invention is also characterized in that the before described flange of the screen star is formed of metal, and the star fingers are scorched or vulcanized on, and/or sprayed on, and/or burned on or cast on at this flange. Thus a stable connection between the flange and the shaft is achieved that is able to transmit sufficient forces to guarantee also a very fast screen process. On the other hand, thus the effect is achieved that the star fingers can be produced of a softer material, for example rubber, that influences in any case the screening effect for certain products positively.
Furthermore, according to the invention in the flange at least one, preferably long-hole cleaning boring is provided. Thus, certain material particles, that cannot escape from the space between the single screen stars, then can be removed through this cleaning boring. Furthermore, the offset of the single screen stars on the shaft and the cleaning borings result in an additional cleaning effect, so that by this measurement clogging can be avoided almost completely.
Another aspect of the solution according to the invention is characterized in that, at least on one side of the flattenings forming the thickness, a chamfer is provided breaking the edge from the flattening to the side forming the thickness of the star finger. This measurement also serves, on the one hand, for reducing the wear, and, on the other hand, also for another improvement of the cleaning effect, as by the chamfer it becomes possible to improve the cleaning effect further. Furthermore it is an advantage when the thickness or the size of the flange corresponds roughly with the thickness of the star finger. If necessary, it may be enough to provide a space in the range of 1/10 mm to max. 1 mm that makes gliding of the star fingers across the flange possible.
The invention also refers to a screen machine, in particular star screen machine, comprising a number of screen stars arranged in rows one beside the other in one plane, pivoted on axles, shafts or the like, engaging in one another with a screen star as described before. It is an advantage here, when, according to one embodiment of the screen machine described before, the stars engage into one another staggered in such a way that the star tips of the screen stars arranged on a first shaft engage in the spaces between the screen stars of a second shaft. This increases tremendously the cleaning effect and in particular the screen effect. The distance of the shafts to one another or the distance of the star tips from the flanges of the screen stars determines here the size of the particles of the screened material. It is also an advantage when the shafts, on which the screen stars are arranged, are designed shifting to each other so that, because of different screening materials, the distance can be selected accordingly.
An advantageous development of the screen machine according to the invention is characterized in that the shafts are designed as profiled shafts that then have on their outsides in particular six trapezoidal segments between which semi-circular or half-round recesses extend. Profiled shafts of this type, that are configured in particular as hollow bodies, are characterized by a low weight, and are in addition very stable, and offer a very advantageous power transmission from the shaft to the screen star. Here it is furthermore an advantage if the shafts configured as profiled shafts have on their inside also trapezoidal shaft segments.
As already mentioned it is an advantage when the screen machine is characterized in that the screen stars provided on a shaft are arranged twisted towards each other so that because of the offset a spiral-like configured screen star shaft occurs. Two shafts arranged in this way then are advantageously angled towards each other in such a way, that the longest screen stars or star fingers are just able to pass each other glidingly with sufficient distance to each other on the flange of the screen star.
According to this the invention is characterized in that at least two shafts are spaced apart in such a way, that each time the longest star finger is able to pass glidingly from the flange or lug with little distance between 0.5 mm to 3.0 mm during a rotary motion, in particular during a revolution.
The invention is characterized in that the at least two shafts can be driven with different rotational speed. For that it may be necessary to provide appropriate transmissions and/or drives on the screen machine. No matter, whether the single shafts are driven by a driving machine and the single shafts are geared down differently by one or several transmissions, or whether for each shaft a single drive is provided effecting the rotary motion, it is possible according to the invention to transfer different rotational speeds to the single shafts carrying the screen stars.
In the following the invention is described by embodiments.
In the figures:
In order to make a certain distance of the screen stars I to one another possible, for that a flange 16, here indicated only by a line, is provided. This flange 16 has, as it can be seen in depictions later on, a certain thickness, in particular a thickness corresponding with the thickness of the star fingers 1 to 9, to enable a mutually engaging arrangement of screen stars I on two shafts arranged spaced apart. The screen star is referred to schematically only by reference number I, what is indicated with an arrow on the right hand side besides the depiction in
The dimensions in the figures are preferred modifications. However, the invention is not restricted to these dimensions. In the description and the claims characteristics rather are mentioned that claim a broader protection for the invention.
The invention has been described before by means of examples. The claims filed now and together with the application later on are attempted formulations without prejudice for obtaining a broader protection.
References in the sub-claims refer to the further embodiment of the subject matter of the main claim by the characteristics of the respective sub-claim. These are, however, not to be understood as a waiver of independent subjective protection for the characteristics of the referred sub-claims.
Characteristics so far only disclosed in the description, can be claimed in the course of proceedings as being of essential importance for the invention, for example to distinguish from the state of the art.
Number | Date | Country | Kind |
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20 2008 016 913.5 | Dec 2008 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2009/008634 | 12/3/2009 | WO | 00 | 8/29/2011 |