奥地利专利AT515363A1 chopping tool

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专利摘要:
The invention relates to a comminution tool for plastic materials which can be driven in a rotational movement, comprising a carrier (1) which is rotatable about a rotational axis (B) located centrally on it and tools (4) for processing and comminution of the plastic materials are arranged on its surface (3) are. According to the invention, provision is made for a deflector (5) to be arranged in the area of the axis of rotation (B) of the carrier (1), webs or bar-shaped conveying wings (6) being provided in a region of the carrier (1) adjoining the deflector (5) radially. are arranged and in which on the conveying wings (6) radially to the edge (7) towards subsequent area of the support (1) the tools (5) are arranged.
公开号:AT515363A1
申请号:T50055/2014
申请日:2014-01-28
公开日:2015-08-15
发明作者:Klaus Dipl Ing Feichtinger；Manfred Dipl Ing Hackl；Peter Pauli；Georg Weigerstorfer
申请人:Erema；
IPC主号:

专利说明:

The invention relates to a crushing tool according to the preamble of claim 1. Such crushing tools are used in particular in cutting compressors for the processing and crushing of plastic materials. Object of such crushing tools, preferably cutting or milling tools, it is, in addition to the energy input into the material and a corresponding increase in the enthalpy to comminute the incoming material and / or to mix. As carriers, rotating disks or disk-like or functionally equivalent carriers can be used. Usually, the tools are moved from the edge to the inner area, i. mounted to the axis of rotation of the disc, i. even in those areas where the peripheral speed of the tools is already very small. Furthermore, the invention relates to a cutting compressor with a crushing tool according to the invention.
Investigations have now shown that in processing blown films, cast films, tapes and / or fibers in particular from polyolefins and other polymers such as PL.A, PS, ABS or PET, PA, etc., the peripheral speed of the tools, in particular cutting knife sufficient must be high to a sufficient shredding, ie to make a cut through the material can. In this cutting process but no counter knife is present and thus no defined kerf can be generated, but it depends essentially on the inertia of the material and on the material, which presses on the particles to be cut and thus generates the back pressure for the tool. If this cutting speed is not achieved, the cutting tools used can not perform their function.
The object of the invention is to improve or simplify the effect and structure of such shredding tools. Furthermore, the movement of the material to be crushed is accelerated to the tools and a laying of the crushing tool can be prevented with material.
According to the invention, it is provided in a comminuting tool of the type mentioned above that a deflector is arranged in the region of the axis of rotation of the carrier, wherein web or strip-shaped conveying vanes are arranged in a region of the carrier radially adjoining the deflector and in which the conveying wing is radially directed to the edge towards subsequent area of the carrier, the tools are arranged. This deflector causes no material can accumulate in the area around the axis of rotation, in which area the arrangement of tools is not required. The tools are moved away from the axis of rotation, in an area where the tools have sufficient speed around the uncut
To shred or cut material. This achieves savings in the production of cutting compressors and shredders. At the same time, the efficiency of the tools used is increased. The deflector used ensures a movement of the material to be shredded in the radial direction or towards the edge of the carrier. In this case, the material to be crushed behaves like a fluid and apart from a good mixing of the material within the container, the material to be crushed is quickly and efficiently supplied to the tools located in an area of the container or the carrier in which they to have the best effect.
The invention provided Förderfiügel extending between the deflector and the tools on the support, allow optimal supply of the material to be crushed to the tools and contribute to a good mixing of the crushed and crushed material within the container provided.
The deflector and the conveyor blades bring energy into the plastic material to heat it and at the same time serve as Radiaiventilator to transport the material to be crushed radially outward in the range of tools. Furthermore, the deflector and the conveyor fins serve to reject uncut material that is fed to the cutter compactor, so that this material is not imposed and jammed, but is fed through the deflector and the Förderfiügel the tools. Due to the rapid removal of the material to be shredded from the central area of the cutting compressor, the free surface of the materials is increased or aufgeupockert so that evaporation of volatile substances is facilitated. The Förderfiügel give the material a correspondingly high rotational speed and an exchange of particles between the surface of the inside of the cutting compactor Trombe and its interior is increased.
The deflector is located centrally on the comminution tool or on the support of the comminution tool and surrounds its axis of rotation or lies symmetrically to the axis of rotation.
It is possible that the conveyor fins go off the deflector and are connected to it. However, it is not absolutely necessary for the conveyor fins to connect directly to the deflector. In principle, a gap between the deflector and the conveyor wings can be formed. The Förderfiügel thus lie in a region which is radially further away from the axis of rotation of the crushing tool than the circumference of the deflector. Appropriately, the conveyor wings go directly from the scope of the
Abweisers or can be connected to this by welding or bolting. in a lying radially outside the range of the conveying wings area of the crushing tool are the tools. These tools can be sent directly to the production flights! attach or also connect with the formation of a distance to the Förderflügei. It is advantageously provided that the tools are located between the end of the respective conveying wing remote from the axis of rotation and the edge of the carrier. It is advantageous in terms of design if the tools are connected directly to the respective conveyor wing or if the tool located on the further inside is connected directly to the end of the respective conveying wing which is remote from the axis of rotation. The outermost tool may project beyond the edge of the carrier. In principle, it is also possible to provide only a single tool.
A simple and stable construction results when the support is formed by a disc which carries on its surface the deflector, the Förderfiügel and the tools, or by a central support member and a plurality of outgoing from this central support member support beam is formed, wherein the central support part supports the deflector and optionally the Förderfiügel and / or the support beams support the Förderfiügel and the tools and optionally the deflector. The carrier may be formed by a disk or a disk-like component.
A good deviation or deflection of the material to be comminuted and favorable for the formation of the rotating in a cutting compressor Trombe is when the deflector has a rotationally symmetric, preferably conical, cylindrical, frustoconical, cylindrical with a conical attachment, or a pyramidal outer contour or a auszubidet a cone-bearing cylinder. In principle, other external forms of a deflector, e.g. hemispherical shapes or ovoid or domed shapes conceivable.
Advantages for material deflection arise when the deflector is sloping sloping from its lying in the axis of rotation tip or its region surrounding the axis of rotation to the edge of the carrier.
A simple structure and a good Abienkwirkung of the deflector arise when the deflector has a continuous closed or one of a number of the outer contour forming struts and / or plates formed surface and / or if the deflector towards the edge of the carrier outgoing Conveyor wings depart from the surface of the carrier or stand out or are mounted on this.
In a particularly advantageous embodiment, it is provided that the deflector itself also carries conveying wings, which depart from the surface of the deflector or project and are directed away from the carrier. Thus, the conveying effect of Förderfiügel, which lie between the deflector and the tools, supported and the circulation of plastic particles in a container vergieichmäßigt and accelerated.
The cross-sectional shape of the conveying wings can advantageously be rectangular. The conveying wings are in the form of strips or webs and depart from the surface of the carrier and optionally the surface of the deflector.
It may be advantageous in construction terms that the conveyor fins supported by the deflector and the conveyor fins located between the deflector and the tools directly adjoin one another or are formed integrally with one another. For the operation of the crushing tool, it is advantageous if the starting point of Förderfiügel carried by the deflector and thus the starting point of these Förderfiügel subsequent, leaving the carrier Förderfiügel in the axis of rotation of the carrier or in the center of the deflector or in an area between the axis of rotation or the center of the deflector and the edge of the deflector is at a predetermined distance from the axis of rotation. Apart from a stable construction results in a good conveying effect for the plastic material to be crushed.
The starting point of conveyor blades connecting to the deflector may project beyond the height level of the edge of the deflector.
The circulation of the material and the action of the tools is improved when the Förderfiügel in the area above the deflector in the direction towards the edge have a straight or radially with a curving curved course and / or that extending between the deflector and the edge of the carrier Förderfiügel have a straight or nacheiienden with respect to a radial course. For an improved demand of the plastic material to be shredded and an optimization of the energy input into the material, it can be provided that from the starting point the height of the conveying flights! or its carrier-remote surface or edge with respect to the support to the height of the tool which abuts the respective conveyor wing, in particular to the height of the cutting surface or the working surface of this tool decreases.
The energy input into the material can be varied if the carrier edge remote from the conveying wings with respect to the surface of the carrier has a straight or a, preferably parabolic, curved course or has successive straight and / or curved sections.
Depending on the material and speed of rotation of the crushing tool can be provided that the deflector has a radius of 5 to 45%, preferably 15 to 40% of the radius of the carrier or the radius of the turning circle of the radiai outermost end of the support beams or the radius of the turning circle of the has radially outermost point of the outermost, possibly the carrier outwardly projecting tool. This results in an optimal deflection and crushing of Materiais. In practice, it has proved to be expedient if the maximum height of the deflector and / or lying in the axis of rotation starting point of conveying wings above the carrier 10 to 90%, preferably 30 to 80%, of the radius of the carrier or the radius of the rotating circle of the radially outermost end portion of the support beams or the radius of the rotation circle of the radially outermost point of the outermost tool. This results in an advantageous vote of the effect of the deflector with the effect of conveying wings.
The Schneidverhaiten is improved if the pointing in the direction of rotation cutting surfaces and / or working surfaces of the conveyor blades on the tools are arranged along a curved line, which continues the course or the curvature of the conveyor wing and possibly lags a radial of the carrier.
The movement of the material to be shredded or its supply to the tools and the introduction of energy into the material are set in a favorable relationship when the height of the conveying wings in relation to the level of the cutting surfaces of the tools at a distance from their starting point of 20 to 90% , preferably from 25 to 80%, of the radius of the beam, the radius of the turning circle of the radially outermost end portion of the beams or the radius of the turning circle of the radially outermost point of the outermost tool from the pivot point to the edge by 35 to 70%, preferably 40 to 60%, and then preferably decreases to the level of the cutting surface of the innermost tool. For the movement of the material, it is advantageous if the Förderfiügel are at right angles to the surface of the carrier or that the conveying wings with respect to the surface of the carrier over at least a portion of its height at an angle of up to 45 ° to the carrier in or against the Movement direction are inclined.
Structurally, it is advantageous if the conveying wings are connected at their base edge close to the carrier with a, possibly also connected to the deflector, Basisfiäche and optionally attached to this with the carrier.
To improve the cutting action of the tools can be provided that the radially outer edge of the cutting surface or working surface of a respective inner tool covers the radially inner edge of Schneidfiäche or working surface of each radially outwardly to subsequent tool seen in the direction of rotation or surmounted.
The tools provided are formed by cutting knives, milling tools or tools intended for the particular type of material. The tools advantageously extend to the outermost edge of the carrier or protrude beyond. For the use and the effect and production of the crushing tool, it is advantageous if the individual conveyor fins and / or the tools and / or the support beams are each formed centrally symmetrically and / or with each other the same.
The area in which the conveyor fins extend, i. the area which lies between the area of the deflector and the area of the tools is advantageously limited by the fact that the conveying wings adjoining the deflector extend up to a radial distance from the fulcrum, which amounts to 30 to 70%, preferably 40 to 60% Radius of the carrier or the radius of the turning circle of the radially outermost end portion of the support beam or the radius of the turning circle of the radially outermost point of the outermost tool is. This results in a good material circulation with optimum cutting action by moving at a relatively high rotational speed conveying wings that forward the material to the tools.
According to the invention, it is provided that the comminution tool is arranged in the interior of the container of a cutting compressor and is carried by a rotary shaft running perpendicular to the carrier or to the plane defined by the conveyor fins and preferably passing through the bottom of the container. Thus, the structure and efficiency of a cutting compressor for processing, especially recycled, plastic materials are optimized.
It is provided in such a cutting compressor that the axis of rotation of the carrier and the axis of the rotary shaft coincide. For improved material movement can be provided that the web or strip-like conveying wings are inclined relative to the carrier at an angle of up to 45 ° in or against the direction of rotation. For a rapid and clog-free circulation of complex material, it is expedient if the conveying wings and / or the conveying flights! At least over a portion of its course, in particular over its entire course, viewed in cross-section have height ranges with different inclination to the carrier.
A rapid and the Trombe in the container quickly moving and mixing embodiment of the Förderfiügel provides that the conveying wings over at least a portion of their radial course in cross-section over a length range of 80 to 100%, preferably 90%, of the respective total length of the conveying wings extending , perpendicular to the surface of the carrier standing, in particular straight course possessing, first longitudinal portion, to which a bent, extending over a length range of up to 20% of the respective total length of the conveying wing extending, a straight or curved cross-section exhibiting, against the direction of rotation in one Winkei connected by up to 45 ° to a perpendicular to the surface of the carrier inclined section whose apex lies in the turn.
In particular, for special materials, it is advantageous if the Förderfiügei at least over a portion of its radial course in a cross section extending over a length range of up to 20% of the respective total length of the conveyor wing, at an angle of up to 45 ° relative to a vertical have to the surface of the carrier against the direction of rotation inclined, straight or curved cross-section having first longitudinal portion, if at this length portion extending perpendicular to the surface of the carrier extending middle section over a length range of 60 to 80% of the respective total length of the conveyor wing, and if connected to this central portion a bent, straight or curved in cross-section end portion over a length range of up to 20% of the respective total length of the conveyor wing, in the or against the direction of rotation at an angle of up to 46 ° to egg ner perpendicular to the surface of the carrier is inclined and has a straight or curved cross section, wherein the apex of the angle is in the bend. For the material processing and shredding it is important, the curvature or the course of the front of the conveying flights! and tools. It is advantageous if the conveying wings starting from their starting point and the subsequent tools have a particular consistently curved course of their pointing in the direction of rotation leading edges and / or surfaces, wherein the curvature is approximated by a circular arc with an accuracy of 10% of the circular arc radius and the circular arc radius is 50 to 80%, preferably 52 to 75%, of the radius of the carrier or the radius of the circle of rotation of the radially outermost end portion of the support beams or the circle of rotation of the radially outermost point of the outermost tool. A definition of the course can also take place when the curvature of the Förderfiügei emanating from its starting point is approximated by their Winkeiabstand to a leading radial, starting from the axis of rotation in a distance range of 5 to 45% of the radius of the carrier or the radius of the turning circle of Radial outermost end portion of the support beam or the turning circle of the radially outermost point of the outermost tool, the angular distance 0 to 25 °, in a distance range of 15 to 90% of the angular distance 15 to 40 °, in a distance range of 35 to 95% of the angular distance 30 to 55 °, and in a distance range of over 65% and, from 65 to 100% of the Winkeiabstand 45 to 80 °, preferably 45 to 60 °.
It may also be expedient for the design of the conveying wings if the conveying wings extend radially from the axis of rotation and follow the course of a straight line up to the edge of the deflector, which represents a tangent to the curvature or the course or to the front of the subsequent conveying wings ,
Fig. 1 shows a schematic section through a container in which an inventive crushing tool is arranged.
Fig. 2 shows a plan view of an embodiment of a crushing tool, as it can be used in a container of FIG. 1.
Fig. 3 shows an alternative embodiment of a crushing tool.
4, 5, 5, 6, 7, 8 show different embodiments of
Crushing tools.
Fig. 9 shows a section through a conveyor wing.
Fig. 10 shows an alternative embodiment of a deflector, which carries no conveying wings.
Figures 11a, 11b, 11c and 11d show various cross-sectional shapes of conveyor vanes.
Fig. 1 shows a container 9, in which a grinding tool according to the invention about its vertically arranged axis of rotation B for a while 17 is driven by a motor M driven to a rotational movement. In its central region, the disc-shaped carrier 1 carries a deflector 5, which is advantageously formed rotationally symmetrical to the axis of rotation B of the carrier 1. From the deflector 5 extend in the direction of the edge 7 of the carrier 1 conveyor wing 6, connect at the end portion 29 tools 4, in the present case also carries the deflector 5 conveyor wing 6 'and conveying wings 6' above the deflector 5 are arranged. These conveying wings 6 'are formed in one piece with the conveying wings 6 in the present case.
The conveying wings 6 'arranged above the deflector 5 and conveying wings 6 adjoining this can originate from a common starting point 22, which is advantageously located in the axis of rotation B, and drop off in the direction of the edge 7 of the carrier 1. The height of the upper edge 14 of the Förderfiüge! 6 and 6 ', which is the carrier 1 away, decreases from its radially inner starting point 22 to the level of the tools 4 and their cutting surfaces 8 from. The edge 14 may have a straight or a curved course. It may also be provided a parabolic course, or that the edge 14 straight or curved sections, which aufeinanderfoigen in any arbitrary way.
The carrier 1 may be formed by a disc 10, as it is dargesteiit in Fig. 1 and 2. However, it is also possible to form the carrier 1 such that it has a central Trägerteii 12, depart from the support beam 11, as shown in Fig. 3.
The number of support beams 11 and tools 4 is also selectable as the number of arranged on the support 1 conveying wings 6, 6 '. At least two conveyor blades 6 are provided with adjoining tools 4.
The crushing tool is - as shown in FIG. 3 - advantageously formed centrally symmetrical.
The deflector 5 is conical in the case of FIGS. 1 and 3 and, starting from its central, in the axis of rotation B Siegenden area or its tip 21, sloping to the edge 7 of the carrier 1 down sloping
The deflector 5 may have a continuous closed surface or be formed by a number of struts and / or plates, which give a vorteiihafterweise rotationally symmetric, for example, conical structure.
As can be seen in particular from FIGS. 1 and 2, the conveyor flights 6 'start from a common starting point 22, which lies at a distance above the deflector 5 in the axis of rotation B of the carrier 1. This is also evident from FIG. 4, which shows a perspective view of the deflector 5 according to FIG. 1. 2 and 4 go from this starting point 22 four conveyor wings 6 'from which extend above the deflector 5. The Förderflügei 6 connect to the Förderflügei 6 'and extend from the deflector 5 toward the edge 7 of the carrier 1 out. The Förderflügei 6 'are radially straight; the conveying flights 6, which are connected to the conveying flights 6 'and are supported by the carrier 1, are in relation to a radial R " the crushing tool trailing curved.
In general, it has proved to be advantageous for all embodiments of the invention when the Förderflügei 6 extend from the edge of the deflector 5 to a radial distance RA from the axis of rotation B of the carrier 1, which distance RA 30% to 70%, preferably 40th % to 60%, of the radius of the carrier 1 or the turning circle of the outermost point of the outermost tool 4 or the end of the supporting beams 11 is.
Quite generally, it is provided for all embodiments of the invention that the deflector 5 has a radius R of 5 to 45%, preferably 15 to 40% of the radius R 'of the carrier 1 or the radius of the turning circle of the radially outermost end of the
Supporting beam 11 or the radius of the turning circle of the radially outermost point 20 of the outermost tool 4 has.
The size of the radius R of the deflector 5 or, the size of the distance RA and the height profile of the conveying wings 6, 6 'are determined by the type of plastic material to be processed and the desired size reduction and the desired amount of thermal energy to be entered.
Furthermore, it can be provided in all embodiments in general that the maximum height of the deflector 5 and / or a lying in the axis of rotation B starting point 22 of the conveying wings 6 'above the carrier 10 to 90%, preferably 30 to 80%, of the radius of Carrier 1 or the radius of the turning circle of the radially outermost end portion of the support beam 11 or the rotational circle of the radially outermost point 20 of the outermost tool 4 is. This parameter can also be selected, in particular depending on the material to be processed.
The Förderfiügei 6 'and 6 take from its starting point 22 to the edge 7 with respect. Their height and end at the level of the tools 4 and at the level of the cutting surfaces 8 of these tools 4. It is useful if the height of the conveyor wing 6, 6 'relative to the level of the cutting surface 8 of the tools 4 at a distance from their starting point 22 of 20 to 90%, preferably 25 to 80% of the radius of the carrier 1, the radius of the turning circle of the radially outermost end portion of the beams 11 or the rotational circle of the radially outermost point 20 of the outermost tool 4 from the rotational axis B to the edge by 35 to 70%, preferably 40 to 60%, decreases and then decreases to the level of Schneidfiächen 8 of the tools 4. By adjusting this parameter, the conveying effect or Umwälzwirkung the Förderfiügei 6, 6 'are adapted and adjusted to be shredded or processed plastic material.
To the Förderfiügei 6 shoot one or a number of successively arranged tools 4, the cutting surfaces 8 and the required work surfaces wear. These tools or their Schneidfiächen 8 figs in the
Essentially, the curvature of the haul flights 6 and show a radial R " trailing curved course.
5 and 5a show an embodiment of a comminution tool in which the conveying wings 6 and 6 'are integrally formed and from their starting point 22 a with respect to the radial R " trailing curved course have up to their edge or tool near end 29. The deflector 5 has a cylindrical base 25 on which a rotary cone 11 is placed. The conveyor flights! 6 and 6 'are perpendicular to the carrier. 1
A base surface 16 of the conveyor wing 6 can serve to connect the Förderfiügel 6 and / or the deflector 5 to the carrier 1. FIG. 5 a shows a side view through the comminuting tool according to FIG. 5, and the curved sloping, upper or carrier-remote edge 14 of the integrally formed conveying wings 6 and 6 'is discernible.
Fig. 6 shows an embodiment in which the conveying wings 6 and 6 'are integrally formed straight sequentially in the form of a plate. These conveying wings 6, 6 'start at a distance from the tip 21 of the deflector 5, namely from a region 15 of the lateral surface of the cone 11, which forms a unit with the cylindrical base 25.
Fig. 7 shows an embodiment in which three one-piece Förderfiügel 6 and 6 'are provided, which extend from a lying above the top 21 of the cone 5 starting point 22 directed radially and straight in the form of a plate to the edge 7 of the carrier 1, wherein the course of the upper edge 14 of Förderfiügel 6, 6 'follows a straight line. These Förderfiügel 6, 6 'are perpendicular or approximately perpendicular to the carrier 1 as the dargesteliten in the preceding figures Förderfiügel.
Fig. 8 shows an embodiment of a crushing tool with only two pairs of conveying wings 6, 6 '. The Förderfiügel 6 'extend from its starting point 22 above the top 21 of the cone 5 to the edge of the deflector 5 and go to form a bend 26 in the Förderfiügel 6 on. The kink 26 is located with respect to the starting point 22 and the end point 29 of the conveyor fins 6 and 6 'with respect to the radial R " nacheiiend.
Fig. 9 shows a section perpendicular to the course of a web or strip-shaped conveying wing 6 or 6 '. The support fins 6, 6 'fastened to the support 1 with its base 16 are curved at least over a radially extending section in their end region remote from the support. Depending on the nature of the material to be shredded it can be provided that the end region of the conveying flights! 6 and / or 6 'in the direction of rotation 13 or bent or curved against this.
The inventively provided deflector 5 is fixed to the carrier 1, e.g. bolted, and is also provided to cover the screw connection between the carrier 1 and the pivot 17 relative to the plastic material to be processed and to prevent dust and moisture from penetrating to the connection point.
It is possible to provide instead of a number of successively arranged tools 4, a single, one-piece tool that connects to the Förderflügei 6 and extends to the edge 7 of the carrier 1.
Fig. 10 shows a deflector 5 which carries no Förderflügei 6 '. From the cylindrical portion 25 of the deflector 5 go the Förderflügei 6 directed to the edge 7 of the carrier 1 from. From its starting point 22, the edge 14 of the Förderflügei 6 falls to the edge 7 of the carrier 1 from the level of the tools 4 and to the level of the cutting surfaces 8. The starting point 22 may project beyond the side wall of the cylinder 25, which is crowned on its upper side ,
FIG. 11 shows various cross-sectional shapes of the conveying flights 6, 6 'over their course from their starting point 22 in the direction of the edge 7 of the carrier 1.
In Fig. 11a, the cross section of a conveying wing 6, 6 'dargesiellt, in a wink! α of about 90 °, i. protrudes approximately perpendicularly from the carrier 1. This angle α can vary by a few degrees. Such a Förderflügei 6, 6 'promotes the material, especially in the radial direction to the edge 7 of the carrier 1 out. In principle, it is possible for these conveying flights 6, 6 'to extend at an angle α of 45 ° to 135 °, i. is inclined at 45 ° to and 45 ° to the direction of movement 13. In this case, the length L of the conveying wing corresponds to its height H. FIGS. 11b, 11c and 11d show bent sections and reference is made to the total length L of the conveying wing.
In Fig. 11b a Förderflügei 6, 6 'is shown, which has seen over its height H or its entire length L sections with different inclination. The dargesteilte Förderflügei 6, 6 'has a carrier 1 perpendicularly extending, near the first longitudinal portion 30 which extends over a proportion of about 80 to 100%, preferably 90%, of the total length L of the conveying wing 6, 6'. In the carrier remote
The area adjoins this first longitudinal section 30, a directed against the direction of rotation 13, in particular bent portion 31, which extends over a length range of up to 20% of the respective length L of the Förderflugis 6, 6 '. Such a Förderflügei 6, 6 'promotes both radially to the carrier 1 and in one of
Carrier 1 direction away. This section 31 concludes with the longitudinal section 30 and the vertical S to the surface of the carrier 1 a sharp hints! a of up to 45 °, whose apex is in the turn of the edge or bend 40 iiegt.
11c shows a cross-section through a conveying wing 6, 6 ', in which a first longitudinal section 32 extends over a length range of up to 20% of the respective length L of the conveying flight 6, 6' and is inclined against the direction of rotation 13 and pointed Wave your hand! α of up to 45 ° with the vertical S. At this lower or inner Siegenden length portion 32 includes a perpendicular to the surface of the carrier 1 extending central portion 33, which has a length of about 60 to 80% of the respective length L of the Förderflügei 6, 6 '. At this central portion 33 includes an end portion 34 which has up to 20% of the length L of the respective Förderflugis 6, 6 ', is inclined in the direction of rotation 13 and the vertical S to the carrier 1 forms an acute angle α of up to 45 ° , Such a Förderflügei 6, 6 'promotes in its lower part away from the carrier 1 and in its carrier distant end portion 34 to the carrier 1 out. However, the longitudinal portion 32 and the central portion 33 and the end portion 34 also promote in the radial direction.
FIG. 11 d shows a conveying flight 6, 6 'as shown in FIG. 11 c, with the modification that the end section 34 is not inclined in the direction of rotation 13 but extends inclined in the direction of rotation 13. The end portion 34 includes with the perpendicular S to the carrier 1 an angle α of up to 45 °.
The actual height H of the conveying flights 6, 6 'in Fig. 11b depends on the actual overall length L and the angle α at which the longitudinal section 32 and the end section 34 are inclined.
The total length L is calculated from the length of the individual sections 30 and 31 or the sections 32, 33 and 34 in FIGS. 11c and 11d. All sections 30, 31, 32, 33 and 34 of Förderflügei 6, 6 'can show a straight or curved course. The individual sections have been created by turning a strip-shaped base conveyor wing. It can thus join a respective straight section by a turn a curved section and connect to a curved section by a turn a straight section.
Fig. 2 shows the radius R '" a circular arc 42, with which the front 41 of the Förderfiügel 6, 6 'and the cutting surfaces 8 of the tools 4 can be approximated. The circular arc 42 passes through the starting point 22 of the respective conveying wing 6, 6 'and the outermost point 20 of the outermost tool 4. This does not mean that the front face 41 of Förderfiügel 6, 6' and the tools 4 exactly one Must follow circular arc; It is quite possible that this course deviates from a circular arc. However, it is possible to approximate the shape of the front face 41 by means of specially selected circular arcs, with an accuracy or a maximum distance of the individual points of the front face 41 from the circular arc 42 which is 10% of the radius R '. of the arc is 42. According to the invention it is thus provided that the Förderfiügel starting from their starting point and the subsequent tools have a preferably consistently curved course of their pointing in the direction of rotation leading edges and / or surfaces, wherein the curvature is approximated by a circular arc 42 with an accuracy of 10% of the circular arc radius and the circular arc radius is 50 to 80%, preferably 52 to 75%, of the radius of the carrier or the radius of the circle of rotation of the radially outermost end portion of the support beams or the circle of rotation of the radially outermost point of the outermost tool. The cutting surfaces 8 of the individual tools 4 can also run straight.
Another possibility for determining and determining an optimal curvature of the conveying fins 6, 6 'and the front of the tools 4 is given when the curvature of the Förderfiügel emanating from its starting point by their angular distance W to a leading radial R " is approximated, starting from the axis of rotation in a distance range BE of 5 to 45% of the radius of the carrier or the radius of the turning circle of the radially outermost end portion of the support beams or the turning circle of the radially outermost point of the outermost tool, the angular distance W 0 to 25 °, in a distance range BE of 15 to 90% of the angular distance W 15 to 40 °, in a distance range BE of 35 to 95% of the angular separation W 30 to 55 °, and in a distance range BE of 65 to 100% of the angular distance W 45 to 80 °, preferably 45 to 60 °.
In Fig. 2, a distance range BE and a possible angular distance W are given, which may possibly be predetermined for this distance range BE. The values from the individual distance ranges or for the individual angular distances in these distance ranges are selected depending on the material type and the desired machining.
In principle, the setting of the predetermined parameters can be achieved by arranging differently shaped conveying wings 6, 6 'and fastening other tools 4 in a predetermined position on the carrier 1.
The conveying wings 6 can connect to the conveying wings 6 'straight or with the formation of a bend.

权利要求:
Claims (34)
[1]
1. For a rotational movement drivable crushing tool for plastic materials, comprising a support (1) which is rotatable about a centrally located on its axis of rotation (B) and on the surface (3) tools (4) arranged for processing and crushing of the plastic materials characterized in that in the region of the axis of rotation (B) of the carrier (1) a deflector (5) is arranged, wherein in a radially adjoining the deflector (5) region of the support (1) web-or strip-shaped conveying wings (6 ) and the tools (4) are arranged in the region adjoining the conveying wings (6) radially to the edge (7) of the carrier (1).
[2]
2. Crushing tool according to claim 1, characterized in that the conveying flights! (6) depart from or are connected to the deflector (5).
[3]
3. Crushing tool according to claim 1 or 2, characterized in that the tools (4) between the axis of rotation (B) far end of the respective Förderfiügels (6) and the edge (7) of the carrier (1) lie.
[4]
4. crushing tool according to one of claims 1 to 3, characterized in that the tools (4) angeiießen directly to the respective conveying wing (6) or the tool located on the further inside directly to the axis of rotation (B) far end of each conveying wing ( 6) connects.
[5]
5. Crushing tool according to one of claims 1 to 4, characterized in that the carrier (1) by a disc (10) is formed, on one surface the deflector (5), the conveying wings (6) and the tools (4) carries, or from a central support member (12) and a plurality of this central support member (12) outgoing support beam (11) is formed, wherein the central support member (12) the deflector (5) and possibly the conveying wings (6) is supported and / or the Tragbaiken (12), the conveying wings (6) and the tools (4) and optionally the deflector (5) are supported.
[6]
6. Crushing tool according to one of claims 1 to 5, characterized in that the deflector (5) has a rotationally symmetrical, preferably conical, cylindrical, kegeistumpfförmige, cylindrical with a conical attachment, or a pyramidal outer contour or a cone-bearing cylinder and / or the axis of symmetry of the deflector (5) lies in the axis of rotation (B).
[7]
7. crushing tool according to one of claims 1 to 6, characterized in that the deflector (5) of its lying in the axis of rotation (B) tip or of its axis of rotation (B) surrounding, the surface of the carrier (1) distant area to Edge (7) of the support (1) sloping downwards.
[8]
8. Crushing tool according to one of claims 1 to 7, characterized in that the deflector (5) has a continuous closed or one of a number of outer contour forming struts and / or plates formed surface.
[9]
9. crushing tool according to one of claims 1 to 8, characterized in that the deflector (5) in the direction of the edge (7) of the carrier (1) outgoing conveyor wing (6) of the surface (3) of the support (1) depart or stand.
[10]
10. Crushing tool according to one of claims 1 to 9, characterized in that the deflector (5) itself carries conveying wings (6 ') which depart from the surface (11) of the deflector (5) and are directed away from the carrier (1) ,
[11]
11. Crushing tool according to claim 10, characterized in that the deflector (5) carried conveying wings (6 ') and located between the deflector (5) and the tools Förderlyingi (6) connect directly to each other or formed integrally with each other.
[12]
12. Crushing tool according to one of claims 1 to 11, characterized in that the starting point (22) of the deflector (5) carried conveying wings (6!) And on this Förderflügei (6 ') anschleißenden conveyor wing (6) in the axis of rotation ( B) of the carrier (1) or in the center (21) of the deflector (5) or in a region between the axis of rotation (B) and the center (21) of the deflector (5) and the edge of the deflector (5) at a predetermined distance from the axis of rotation (B).
[13]
13. Crushing tool according to one of claims 1 to 12, characterized in that the Förderflügei (6 ') in the area above the deflector (5) towards the edge (7) towards a straight or from its starting point (22) with respect to a radial (R ") have a trailing curved course and / or that between the deflector (5) and the edge (7) of the carrier (1) extending conveying wings (6) have a straight or with respect to a radial (R") lagging course ,
[14]
14. Crushing tool according to one of claims 1 to 13, characterized in that the height of the conveying wings (6, 6 ') or their carrier distant surface or edge (14) above the carrier (1) from its starting point (22) except for Height of that tool (4), which adjoins the respective conveyor wing (6), in particular up to the height of the cutting surface (8) or the working surface of this tool (4), decreases.
[15]
15. Crushing tool according to one of claims 1 to 14, characterized in that the carrier distant edge (14) of the conveying wings (6, 6 ') relative to the surface (3) of the carrier (1) has a straight or a, preferably parabolic, curved course has or has successive straight and / or curved sections.
[16]
16. Crushing tool according to one of claims 1 to 15, characterized in that the deflector (5) has a radius (R) of 5 to 45%, preferably 15 to 40%, of the radius (R1) of the carrier (1) or Radius of the rotational circle of the radially outermost end portion of the support beam (11) or the rotational circle of the radially outermost point (20) of the outermost tool (4) has.
[17]
17. Crushing tool according to one of claims 1 to 16, characterized in that the maximum height of the deflector (5) and / or lying in the axis of rotation (B) starting point (22) of the conveyor wing (6 ') above the support (1) 10 to 90%, preferably 30 to 80% of the radius (R ') of the carrier (1) or the radius of the turning circle of the radially outermost end portion of the support beam (11) or the turning circle of the radially outermost point (20) of outermost tool (4).
[18]
18. Crushing tool according to one of claims 1 to 17, characterized in that in the direction of rotation (13) facing cutting surfaces (8) and / or working surfaces of the conveyor wing (6) adjoining tools (4) are arranged along a curved line, the the course or the curvature of the conveyor wing (6) continues and, if appropriate, a radial (R ") of the carrier (1) lags.
[19]
19. Crushing tool according to one of claims 1 to 18, characterized in that the height (H) of the Förderflügei (6, 6 ') based on the level of the cutting surface (8) of the tools at a distance from its starting point (22) of 20 up to 90%, preferably from 25 to 80% of the radius (R ') of the beam (1), the radius of the turning circle of the radially outermost end portion of the beams (11) or the turning circle of the radially outermost point (20) of the beam outermost tool (8) from the axis of rotation (B) to the edge (7) by 35 to 70%, preferably 40 to 80% decreases and then decreases to the level of the cutting surface (8) of the tools (4).
[20]
20. Crushing tool according to one of claims 1 to 19, characterized in that the conveying wings (6, 6 ') in the right angle! to the surface (3) of the carrier (1) or that the conveying wings (6) with respect to the surface (3) of the carrier (1) over at least a portion of their height in a wink! inclined by up to 45 °.
[21]
21. Crushing tool according to one of claims 1 to 20, characterized in that the conveying flights! (6) connected at its base edge close to the carrier with a, optionally also with the deflector (5) connected to the base surface (16) and optionally attached to this on the carrier (1).
[22]
22. Crushing tool according to one of claims 1 to 21, characterized in that the radially outer edge of the Schneidfiäche (8) or working surface of a respective inner tool (4), the radially inner edge of the cutting surface (8) or working surface of each radially outwardly to adjacent tool (4) seen in the direction of rotation (13) covers or surmounted.
[23]
23. Crushing tool according to one of claims 1 to 22, characterized in that the individual conveying wings (6, 6 ') and / or the tools (4) and / or the supporting beams (11) in each case centrally symmetrically and / or mutually formed with each other are.
[24]
24. Crushing tool according to one of claims 1 to 23, characterized in that at the deflector (5) subsequent conveying wings (6) to a radial distance (RA) from the pivot point (2) extend, the 30 to 70%, preferably 40 up to 60% of the radius (R ') of the support (1) or the radius of the turning circle of the radially outermost end portion of the supporting beams (11) or the turning circle of the radially outermost point (20) of the outermost tool (4).
[25]
25. Crushing tool according to one of claims 1 to 24, characterized in that the web or heistenartige Förderfiügel (6, 6 ') relative to the support (1) at an angle of up to 45 ° in or against the direction of rotation (13) are inclined.
[26]
26. Crushing tool according to one of claims 1 to 25, characterized in that the Förderfiügel (6) and / or the conveying wings (61) at least over a portion of its course, in particular over its entire course, seen in cross-section height ranges with different inclination to the carrier (1) own.
[27]
27. Zerkieinerungswerkzeug according to any one of claims 1 to 26, characterized in that the Förderfiügel (6, 6 ') over at least a portion of its radial course in cross-section over a length range of 80 to 100%, preferably 90%, of the respective total length (L) of the Förderfiügel (6, 6 ') extending, perpendicular to the surface of the support (1) standing, in particular straight course possessing, first longitudinal portion (30), to which a bent, over a length range of up to 20% of respective overall length L of the conveying wing (6, 6 ') extending, a straight or curved cross-section, against the direction of rotation (13) inclined portion (31) connects, with a vertical (S) to the support (1) an angle (a) of up to 45 °.
[28]
28. Crushing tool according to one of claims 1 to 27, characterized in that - the Förderfiügel (6, 6 ') at least over a portion of its radial course in a cross section over a length range of up to 20% of the respective total length (L) the Förderfiügel (6, 6 ') extending, against the rotational direction (13) inclined, straight or curved cross-section having, longitudinal portion (32) having a vertical (S) to the support (1) an angle of up to 45 ° including - that at this longitudinal portion (32) perpendicular to the surface of the support (1) extending central portion (33) over a length range of 60 to 80% of the respective total length (L) of the Förderfiügel (6, 6 ') connects, and - That at this central portion (33) a bent, straight or curved in cross-section end portion (34) over a length range of up to 20% of the respective total length (L) of the Förderflü gel (6, 6 ') adjoins, which is inclined in or against the direction of rotation (13) and has a straight or curved cross section and with a vertical (S) to the surface of the carrier (1) a hint! (a) penetrate up to 45 °.
[29]
29. Crushing tool according to one of claims 1 to 28, characterized in that the conveying wings (6, 6 ') starting from its starting point (22) and the subsequent tools (4) a particular consistently curved course of their in the direction of rotation (13) facing leading edges and the curvature is approximated by a circular arc (42) with an accuracy or a maximum distance of 10% of the circular arc radius (R '") and the arc radius (R "') is 50 to 80%, Preferably, 52 to 75% of the radius (R1) of the support (1) or the radius of the turning circle of the radially outermost end portion of the support beam (11) or the turning circle of the radially outermost point (20) of the outermost tool (4) ,
[30]
A crusher tool according to any one of claims 1 to 29, characterized in that the conveying flights (6) extend radially from the axis of rotation (B) and follow the course of a straight line up to the edge of the deflector (5), which forms a tangent to the curvature represents the course or to the front (41) of the subsequent conveyor wing (6).
[31]
31. A crusher tool according to any one of claims 1 to 30, characterized in that the curvature of the Förderflügei (6, 6 ') emanating from its starting point (22) is approximated by its angular distance (W) to a leading radial (R "), starting from the axis of rotation (B) - in a distance range (BE) of 5 to 45% of the radius (R ') of the carrier (1) or the radius of the rotational circle of the radially outermost end portion of the support beam (11) or the rotational circle of the radially on farthest outer point (20) of the outermost tool (4) the angular distance (W) 0 to 25 °, - in a distance range (BE) of 15 to 90% of the Winkeiabstand (W) 15 to 40 °, - in a distance range ( BE) of 35 to 95% of the wedge distance (W) 30 to 55 °, and - in a distance range (BE) of 65 to 100% of the angular distance (W) is 45 to 80 °, preferably 45 to 60 °.
[32]
32. cutting compressor with a crushing tool according to one of claims 1 to 31.
[33]
33. cutting compressor according to claim 32, characterized in that the crushing tool in the interior of the container (9) of the cutting compressor arranged and extending from a perpendicular to the carrier (1) or to that of the Förderfiügeln (6) plane and preferably the bottom of the Container (9) passing through the rotary shaft (17) is worn.
[34]
34. cutting compressor according to claim 32 or 33, characterized in that the axis of rotation (B) of the carrier (1) and the axis of the rotary shaft (17) coincide. Vienna, January 28, 2014

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同族专利:

公开号 | 公开日

CN105916588B|2019-05-10|

AT515363B1|2018-12-15|

PL3099415T3|2019-04-30|

WO2015113089A1|2015-08-06|

CA2937427C|2021-03-09|

US10525479B2|2020-01-07|

JP6543637B2|2019-07-10|

KR102351007B1|2022-01-12|

TWI647012B|2019-01-11|

JP2017504477A|2017-02-09|

AU2015213226A1|2016-07-14|

EP3099415A1|2016-12-07|

RU2670168C1|2018-10-18|

DK3099415T3|2018-11-05|

MX2016007701A|2016-09-13|

ES2691220T3|2018-11-26|

CN105916588A|2016-08-31|

SI3099415T1|2019-02-28|

EP3099415B1|2018-09-19|

KR20160113141A|2016-09-28|

TR201815048T4|2018-11-21|

US20160339443A1|2016-11-24|

TW201532673A|2015-09-01|

PT3099415T|2018-11-08|

CA2937427A1|2015-08-06|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA50055/2014A|AT515363B1|2014-01-28|2014-01-28|chopping tool|ATA50055/2014A| AT515363B1|2014-01-28|2014-01-28|chopping tool|

TR2018/15048T| TR201815048T4|2014-01-28|2015-01-21|Grinding tool.|

US15/114,830| US10525479B2|2014-01-28|2015-01-21|Comminuting tool|

PCT/AT2015/050020| WO2015113089A1|2014-01-28|2015-01-21|Comminuting tool|

CN201580005567.0A| CN105916588B|2014-01-28|2015-01-21|Pulverizing tool|

AU2015213226A| AU2015213226A1|2014-01-28|2015-01-21|Comminuting tool|

PT15708698T| PT3099415T|2014-01-28|2015-01-21|Comminuting tool|

PL15708698T| PL3099415T3|2014-01-28|2015-01-21|Comminuting tool|

RU2016134794A| RU2670168C1|2014-01-28|2015-01-21|Grinding device|

ES15708698.4T| ES2691220T3|2014-01-28|2015-01-21|Shredder tool|

DK15708698.4T| DK3099415T3|2014-01-28|2015-01-21|FIND LING TOOL|

KR1020167020978A| KR102351007B1|2014-01-28|2015-01-21|Comminuting tool|

MX2016007701A| MX2016007701A|2014-01-28|2015-01-21|Comminuting tool.|

JP2016548656A| JP6543637B2|2014-01-28|2015-01-21|Pulverizer|

CA2937427A| CA2937427C|2014-01-28|2015-01-21|Crushing tool|

SI201530436T| SI3099415T1|2014-01-28|2015-01-21|Comminuting tool|

EP15708698.4A| EP3099415B1|2014-01-28|2015-01-21|Comminuting tool|

TW104102759A| TWI647012B|2014-01-28|2015-01-27|Crushing tool|

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