DE202009002794U1 - Rotor unit for a crushing device - Google Patents

Abstract

Rotor unit (16) for a comminuting device (10), which is rotatably mounted about an axis of rotation (14), with a cutting device (18) comprising a rotor-fixed cutting unit (20) which cooperates with a non-rotatable cutting unit (22), characterized in that the rotor unit (16) has two rotor bodies (28, 30) mounted on a respective rotor shaft (24, 26) and at least two transverse webs (42) connecting the rotor bodies (28, 30), wherein the rotor shafts (24, 26) in the direction of the axis of rotation (14) at a distance (a) from each other are arranged.

Description

The The invention relates to a rotor unit for a comminution device after further defined in the preamble of claim 1 Type and crushing device for crushing materials after further defined in the preamble of claim 9 Art.

In The rule is a crushing device for comminution of Materials designed and made as a granulator essentially of a stator unit, one in the stator unit rotatably mounted about an axis and thus in the stator unit circulating rotor unit and a cutting device with a rotor-fixed cutting unit and a stator fixed cutting unit. The rotor unit comprises rotor bodies for receiving the rotor-fixed cutting unit. The cutting units comprise cutting elements designed as knives. The knives pass each other with a narrow gap. The to be cut Materials are supplied to the device where the materials be detected by the rotor unit and between the rotor unit and the stator unit advised. Here, the material of the Cutting units met and crushed by shearing.

Often are preferably designed as cutting mills Devices for shredding materials in pipelines used by pneumatic conveyors to sucked off to shred endless waste such as edge trimming or grating. The shredding allows the transport of the waste material by air in a suction tube, with a low energy consumption of a downstream Transport fan the accumulating waste quantities from the production machines directly in suitable collection containers, such as press containers or to transport foil bags.

It However, there are still injector systems, which the waste vacuum in endless condition from the production machines. The radius of action of this As a result, investments are fundamentally very limited because they are endless Waste strips represent a very high resistance in pipelines and slow yourself down a lot. Only by very high energy consumption The fan of an injector can transfer endless material transported larger distances in pipelines become. In addition, the extracted, endless material takes at the receiving site a very large volume, since the waste material is still always endless and has not been crushed. A space-saving Collecting the waste material can not be achieved. Around to compensate for these disadvantages will therefore be those described above Crushers used, which are the endless waste material Crush at the same time as the suction. This will be advantageous Way that achieves two consecutive effects. For one thing, that Material saves energy over longer pipe runs on the other hand, the crushed material be stored at the receiving place very space-saving.

since For many years crushers have been built and used. When the first devices were used, there were only simple ones Standard materials in the paper and film area. The production speeds and production widths were at a low level from today's perspective. Machine speeds were standard at 30-60 m / min and made-up widths or widths of 20-40 mm the maximum requirements. The then used Crushers were able to handle these quantities and speeds very good process. Also WUR several shredders Installed on a production machine to overflow To be able to process waste that does not have a device could handle.

in the Over the years, however, production speeds increased of production machines that changed material compositions itself and the made-up widths were at strips or grids wider and wider. Added to this was the processing of adhesive, laminated, laminated tough and abrasive materials. Also changed itself the fillers of the materials. Thus changed the technical requirements for the crushing devices, what a change in the technique of crushing devices conditionally.

In usually there is a conventional shredding device of material from a stator housing, a stator unit arranged with two at 90 ° angle transverse to an axis Nozzle, a rotor shaft rotating about the axis, a rotor unit with rotor strips having rotor bodies and a in the stator housing incorporated, fixed cutter bar. The rotor shaft of the rotor unit and the fixed cutter bar the stator housing are arranged parallel to each other. Through a defined angle in the rotor bodies the rotor unit incorporated male connector results in a silhouette, so soon a knife of the rotor unit on the fixed cutter bar the stator unit hits. This cut repeats itself depending on Device type and size between two to four times per revolution, depending on how many male connectors are arranged on the rotor bodies of the rotor unit.

Usually, classic rotor shafts are made of cast steel and have a central axis for receiving a plurality of rotor bodies, in which the male connectors are incorporated. The male connectors are preferably distributed evenly spaced on the circumference of the rotor body.

From the utility model DE 297 24 035 U1 is a generic crushing device for crushing materials known. The device comprises a stator unit, a rotor unit, a cutting device with a stator-fixed cutting unit and a rotor-fixed cutting unit, and a suction device. The rotor unit is rotatably mounted in the stator unit about an axis of rotation. The stator unit has the stator-fixed cutting unit, which cooperates with the rotor-fixed cutting unit of the rotor unit. The rotor unit comprises a rotor shaft on which a plurality of rotor bodies are arranged uniformly spaced, to which the designed as a blade strips rotor fixed cutting unit is attached. A disadvantage here is that only a small amount of space for receiving the waste material is present in the region of the rotor-fixed cutting unit due to the evenly spaced on the rotor shaft rotor body, so that it is more material for compacting the material in the region of the cutting device and thus frequently Stuck off the suction at the suction point comes. This often results in clogging of the device due to lack of air flow. Thus, only an uneven suction performance is achieved. This results in a high energy consumption of transport fans and a high inherent noise of the flowing air flow.

It is therefore an object of the present invention, a rotor unit for a comminution device and a comminution device for crushing materials with improved efficiency to accomplish.

According to the invention this object by a rotor unit for a crushing device with the features mentioned in claim 1 and a crushing device for comminuting materials having the features mentioned in claim 9 solved.

According to the invention proposed that the rotor unit two, each on a rotor shaft mounted rotor body and at least two the rotor body having connecting transverse webs, wherein the rotor shafts in the direction the rotation axis are arranged at a distance from each other. By the use of two separate rotor shafts without through Central axis work, but in the direction of the axis of rotation in one Spaced apart and stored separately, are the above-mentioned disturbances during suction and / or cutting largely avoided. The rotor unit will be advantageous for a crushing device according to the invention used for shredding materials. In free space generating Way, the rotor shafts of the rotor unit have only two rotor bodies, so that the crushing device in the region of the cutting device no resistance to the waste material to be shredded, but provides sufficient space for receiving the waste material. Thus it comes also with larger quantities of material not to densify the material in the area of the cutting device. Advantageously, this is a constriction of the Air flow at the suction point and thus clogging the device is avoided due to lack of suction air. Especially Advantageously, this results in an improved efficiency the device with a uniform suction power. In particular, this reduces the energy consumption of Transport fans and the inherent noise of the flowing Air volume.

In Advantageously, the rotor unit is constructed as a rotor body executed. Preferably, the Ro is gate unit as a steel construction executed. In contrast to a production of cast steel, avoids the built embodiment of the rotor unit in the course of use, especially when processing hard Materials, strong deformations of the cutting unit executed transverse webs. By making the rotor unit as a built construction, those receiving the cutting unit become Crossbars significantly more massive and can be in more advantageous Were claimed more heavily. A bending and deforming is therefore almost impossible.

Prefers the rotor unit serves to receive the rotor-fixed cutting unit. Advantageously, thereby an exact adjustment and Positioning of the cutting unit in the rotor unit, resulting in a good crushing result.

In An embodiment of the invention comprises the rotor-fixed cutting unit two cutting elements. Preferably, the rotor-fixed cutting elements designed as male connectors. By this invention Design, a structure of the rotor-fixed cutting unit is possible which is particularly simple and stable. In particular, conventional, inexpensive standard parts can be used as cutting elements.

Preferably the rotor-fixed cutting elements are opposite to the Rotary axis at a predetermined angle.

Advantageously, results from this defined angle of the cutting elements a paper cut, as soon as the rotating cutting elements of the rotor unit and the fixed Schne ide unit of the stator meet each other. As a result, the material is not broken, but cut in an advantageous manner, so that the undesirable formation of dust during the crushing process can be largely avoided.

Prefers the rotor-fixed cutting elements are substantially opposite each other the rotor unit arranged. Advantageously results This in a simple way a good crushing of the waste material and achieving the final fineness of the shredded waste material quickly.

In an embodiment of the crushing device comprises the stator fixed Cutting unit a cutting element and thus forms in a particularly advantageous Way a counter element to the rotor-fixed cutting elements of the rotor unit, whereby an optimal paper cut can be achieved.

Further yield advantageous embodiments and refinements of the invention from the remaining subclaims.

A advantageous embodiment of the invention is in the drawings shown in principle and will be below described.

there demonstrate:

1 a schematic sectional view of a front view of an embodiment of a device according to the invention for the comminution of materials, and

2 a schematic representation of a side view of the rotor unit of the device 1 ,

The 1 and 2 show a device 10 for shredding materials. The device 10 includes a housing 34 having stator unit 12 , a rotor unit 16 , a cutting device 18 with a stator-fixed cutting unit 22 and a rotor-fixed cutting unit 20 , and a suction device 38 , The rotor unit 16 is in the stator unit 12 around a rotation axis 14 rotatably mounted. The stator unit 12 has the stator fixed cutting unit 22 on, with the rotor-fixed cutting unit 20 the rotor unit 16 interacts.

The rotor unit 16 includes rotor body 28 . 30 for holding the rotor-fixed cutting unit 20 , At the device 10 is the working space or crushing space of the device 10 usually by a in the housing 34 preferably at a geodetically underlying location of the stator 12 arranged sieve unit 36 limited.

To provide a device for comminuting materials with improved efficiency, the rotor unit has 16 According to the invention two, each on a rotor shaft 24 . 26 mounted rotor bodies 28 . 30 on, with the rotor shafts 24 . 26 in the direction of the axis of rotation 14 are arranged at a distance a from each other. Ie. There are two separate rotor shafts 24 . 26 provided, which work without a continuous central axis and in the direction of the axis of rotation 14 are arranged at a distance a from each other. In addition, the two rotor shafts 24 . 26 separated from each other preferably in the housing 34 the stator unit 12 stored. The bearings between the rotor bodies 28 . 30 and the rotor shafts 24 . 26 For example, they can be designed as movable bearings and / or fixed bearings. In this case, at least one bearing between a driven rotor shaft 24 . 26 and one of the rotor bodies 28 . 30 rotatably executed.

Advantageously, the rotor unit 16 designed as a built rotor unit. In the present embodiment, the rotor unit 16 designed as a steel construction. The rotor unit 16 serves to accommodate the rotor-fixed cutting unit 20 , For this purpose, the rotor unit 16 the two, the rotor bodies 28 . 30 connecting crossbars 42 on which the cutting unit 20 is fastened, with the arrangement of further transverse webs 42 would be conceivable. The rotor unit 16 with the two spaced apart rotor bodies 28 . 30 and the at least two of the two rotor bodies 28 . 30 connecting crossbars 42 advantageously forms a stable grid cage.

In the present embodiment, the rotor-fixed cutting unit comprises 20 preferably two cutting elements 20a . 20b , and the stator fixed cutting unit 22 preferably comprises a cutting element 22a , where in 2 only a rotor-resistant cutting element 20b is shown. Preferably, according to 1 the rotor-fixed cutting elements 20a . 20b essentially opposite each other on the rotor unit 16 arranged.

The cutting units 20 . 22 include cutting elements formed as a knife 20a . 20b and 22a , The knives pass each other with a narrow gap. In the present embodiment, the rotor-fixed cutting elements 20a . 20b designed as male connectors. Preferably, according to 2 the rotor-fixed cutting elements 20a . 20b opposite the axis of rotation 14 the rotor unit 16 at a predetermined angle α. Ie. the axis of rotation 14 and the rotor-fixed cutting elements 20a . 20b include a predeterminable angle α.

In the illustrated embodiment, the device 10 the material to be cut with the help of the suction device 38 about a preference wise trained as inlet nozzle entrance 40 fed to where it comes from the rotor unit 16 is detected and between the rotor unit 16 and the stator unit 12 or in the cutting device 18 device. Here, the material from the cutting device 18 or from the cutting units 20 . 22 taken and crushed by shearing action. The material remains in the device for so long 10 until it is so finely crushed that it passes through the sieve unit 36 the device 10 can leave.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 29724035 U1 [0009]

Claims (10)

Rotor unit ( 16 ) for a crusher ( 10 ), which are arranged around a rotation axis ( 14 ) is rotatably mounted, with a cutting device ( 18 ), which has a rotor-fixed cutting unit ( 20 ), which with a non-rotatable cutting unit ( 22 ) cooperates, characterized in that the rotor unit ( 16 ) two, each on a rotor shaft ( 24 . 26 ) mounted rotor body ( 28 . 30 ) and at least two the rotor bodies ( 28 . 30 ) connecting transverse webs ( 42 ), wherein the rotor shafts ( 24 . 26 ) in the direction of the axis of rotation ( 14 ) are arranged at a distance (a) from each other. Rotor unit according to claim 1, characterized in that the rotor unit ( 16 ) is designed as a built rotor unit. Rotor unit according to claim 1 or 2, characterized in that the rotor unit ( 16 ) is designed as a steel construction. Rotor unit according to one of claims 1 to 3, characterized in that the rotor unit ( 16 ) for receiving the rotor-fixed cutting unit ( 20 ) is executed. Rotor unit according to one of claims 1 to 4, characterized in that the rotor-fixed cutting unit ( 20 ) two cutting elements ( 20a . 20b ). Rotor unit according to claim 5, characterized in that the rotor-fixed cutting elements ( 20a . 20b ) are designed as male connectors. Rotor unit according to claim 5 or 6, characterized in that the rotor-fixed cutting elements ( 20a . 20b ) with respect to the axis of rotation ( 14 ) at an angle (α). Rotor unit according to one of claims 5 to 7, characterized in that the rotor-fixed cutting elements ( 20a . 20b ) substantially opposite each other on the rotor unit ( 16 ) are arranged. Crushing device ( 10 ) for comminuting materials with a stator unit ( 12 ), one in the stator unit ( 12 ) about a rotation axis ( 14 ) rotatably mounted rotor unit ( 16 ) and a cutting device ( 18 ), which has a rotor-fixed cutting unit ( 20 ) and a statorfest, with the rotor-fixed cutting unit ( 20 ) cooperating cutting unit ( 22 ), characterized in that the rotor unit ( 16 ) is executed according to one of claims 1 to 8. Comminution device according to claim 9, characterized in that the stator-fixed cutting unit ( 22 ) a cutting element ( 22a ).