EP3912727A1 - Grinding machine - Google Patents

Abstract

Shredding machine (1) for shredding material, comprising- at least one shredding shaft (2), in particular exactly two shredding shafts (2), - at least one drive device (3) with which the at least one shredding shaft (2) can be set in rotation, - at least a coupling device (4) with which the at least one shredding shaft (2) and the at least one drive device (3) can be coupled and decoupled, the at least one coupling device (4) having at least one drive-side coupling element (5) and at least one shaft-side coupling element (6) ), and wherein the shaft-side coupling element (6) is arranged at a first end (7) of the at least one shredding shaft (2), and at least one displacement device (8) with which the at least one shredding shaft (2) relative to the at least one Drive device (3) at least in one direction (9) parallel to an axis of rotation (10) of the At least one shredding shaft (2) is displaceable, whereby the at least one drive-side coupling element (5) and the at least one shaft-side coupling element (6) can be coupled and / or decoupled, preferably with the at least one shredding shaft (2) being driven by the at least one displacement device (8 ) relative to the at least one drive device (3) in the direction (9) parallel to the axis of rotation (10) of the at least one shredding shaft (2) via a displacement path (11) between 10 mm and 50 mm, preferably 30 mm, with at least a housing (12) is provided in which the at least one shredding shaft (2) is arranged at least in some areas, the at least one housing (12) has at least one first housing side (13) through which the at least one shredding shaft (2) with its first End (7) passes, and the at least one displacement device (8) between the at least one first housing egg te (13) and the at least one drive device (3) is effective.

Description

The invention relates to a shredding machine for shredding material, comprising at least one shredding shaft, in particular exactly two shredding shafts, at least one drive device with which the at least one shredding shaft can be set in rotation, at least one coupling device with which the at least one shredding shaft and the at least one drive device can be coupled and decoupled, wherein the at least one coupling device has at least one drive-side coupling element and at least one shaft-side coupling element, and wherein the shaft-side coupling element is arranged at a first end of the at least one shredding shaft, and at least one displacement device with which the at least one shredding shaft relative to at least one drive device is displaceable at least in one direction parallel to an axis of rotation of the at least one shredding shaft , whereby the at least one drive-side coupling element and the at least one shaft-side coupling element can be coupled and / or decoupled. The invention further relates to a shredding system comprising at least one such shredding machine and at least one changing device. Finally, the invention relates to a method for changing at least one shredding shaft of such a shredding machine.

From the EP 3 248 687 A1 A shredding machine with a displacement device is known, the displacement device comprising a hopper wall of a feed hopper, the hopper wall being coupled to an end wall and being provided pivotable about an axis in order to decouple or couple the shaft-side coupling element from or on the housing-side coupling element when the hopper wall is pivoted to effect. Two shredding shafts, each with a second end, are mounted in the front wall.

This solution has disadvantages: The displacement device comprises one of components that interact with one another, which is associated with the risk of functional impairment if one of the components no longer functions as intended, e.g. if shredded material gets into the displacement drive of the hopper wall .

Another disadvantage is that the coupling and decoupling of the coupling elements is brought about indirectly by exerting a force on the hopper wall and the shredding shafts, which can lead to the coupling elements jamming and / or jamming during coupling and decoupling. This can result in an increased expenditure of time for changing the shredding shafts.

Furthermore, there is the risk that comminuted material will get into the coupling elements on the housing side when the coupling elements are decoupled, which can impair or even make a subsequent coupling process impossible. An operator may then feel compelled to climb into the shredding machine in order to manually remove the shredded material from the coupling elements on the housing side.

The object of the present invention is to provide a shredding machine that is improved compared to the prior art, a shredding system comprising such an improved shredding machine and at least one changing device and a method for changing at least one shredding shaft of a shredding machine that is improved compared to the prior art, the disadvantages of Prior art can at least partially be avoided, the shredding machine is characterized by a displacement device with a low susceptibility to failure and / or the method is characterized by a reproducibly short changeover time of approx. 0.5-1 hour.

This object is achieved by the features of claims 1, 11 and 12.

In the shredding machine, at least one housing is provided in which the at least one shredding shaft is arranged at least in some areas, the at least one housing has at least one first housing side through which the at least one shredding shaft passes with its first end, and the at least one displacement device between the at least one first housing side and the at least one drive device is effective.

In comparison to the prior art, a housing is used in which the at least one shredding shaft is arranged at least in certain areas. This has the advantage that the at least one shredding shaft can be stored in a stable and secure manner in the housing, which facilitates the coupling and decoupling of the coupling elements.

Furthermore, by providing a housing, it is possible in a simple manner to protect the bearing points of the at least one shredding shaft and in particular the area in which the coupling and decoupling of the coupling elements takes place from contamination by shredded material that is not conveyed out of the shredding machine.

Because the at least one displacement device is effective between the at least one first housing side and the at least one drive device, the force for coupling and / or decoupling the coupling elements can be optimally introduced and does not have to be indirectly applied to the funnel wall as in the prior art and the shredding shafts are provided. This reduces the risk of the coupling elements jamming and / or catching.

According to an advantageous embodiment, it is provided that the at least one displacement device has at least one push-off device with which the at least one shredding shaft can be pushed off by the at least one drive device at least in a direction parallel to the axis of rotation of the at least one shredding shaft, whereby the at least one drive-side coupling element and the at least one shaft-side coupling element can be decoupled, preferably wherein the at least one displacement device comprises exactly two push-off devices spaced apart from one another in a direction transverse to the axis of rotation of the at least one shredding shaft, and / or the at least one push-off device comprises at least one threaded bushing and at least one threaded bolt rotatably arranged therein, and / or the at least one push-off device is arranged on the at least one drive device. As a result, the at least one displacement device can be designed to be technically simple and at the same time extremely robust. As an alternative or in addition, the at least one displacement device can comprise a spindle drive and / or hydraulic cylinder.

It has been found to be favorable that the at least one first housing side can be releasably connected or connected to the at least one drive device via at least one traction means, preferably a screw, preferably with the at least one shredding shaft being at least parallel in the direction through the at least one traction means can be pulled to the axis of rotation of the at least one shredding shaft to the at least one drive device, whereby the at least one drive-side coupling element and the at least one shaft-side coupling element can be coupled. The at least one traction device fulfills a double function: it not only connects the at least one first housing side with the at least one drive device, but also serves to move the at least one shredding shaft at least in the direction parallel to the axis of rotation of the at least one shredding shaft to the at least one drive device to pull, whereby the at least one drive-side coupling element and the at least one shaft-side coupling element can be coupled.

An advantageous embodiment consists in that the at least one housing has at least one second housing side, the at least one shredding shaft predominantly being arranged between the two housing sides, preferably with the two housing sides being arranged essentially parallel to one another.

It is advisable for the shredding machine to have a machine frame and at least one releasable connecting device, with which the at least one housing can be releasably, preferably positively, connected to the machine frame. As a result, the at least one housing can on the one hand be held securely on the at least one machine frame. On the other hand, the connection can be released in a simple manner if the at least one shredding shaft is to be changed.

In this context, it has been found to be advantageous that the at least one housing can be connected to the machine frame by the at least one connecting device via the at least one second housing side.

It has proven to be beneficial that the at least one housing has at least one engagement means and / or at least one interface for the releasable attachment of an engagement means for a changing device, with which the at least one housing together with the at least one shredding shaft of the shredding machine can be removed. The at least one means of attack can be a shackle, for example.

An advantageous embodiment is characterized in that in a position of use above the at least one shredding shaft at least one, preferably at least partially funnel-shaped, Material feed space is arranged, preferably wherein the material feed space has at least one deflecting bevel detachably connected to a machine frame of the shredding machine, which is arranged in a connected state above a second end of the at least one shredding shaft. By means of such a deflecting bevel, material to be shredded can be directed in an efficient manner to the at least one shredding shaft. At the same time, the second end of the at least one shredding shaft is protected from contamination and can nevertheless be easily removed in order to create sufficient space for changing the housing together with the at least one shredding shaft.

It is advisable that the shredding machine has at least one service door on at least one side surface, the at least one displacement device being accessible from the outside in an open state of the at least one service door.

In order in particular to simplify the alignment of at least one further housing relative to the at least one drive device, at least one first alignment device can be provided with which the at least one drive device and the at least one housing can be aligned relative to one another in at least one direction parallel to the axis of rotation of the at least one shredding shaft , preferably wherein the at least one first alignment device comprises at least one, particularly preferably two, frustoconical projections and receptacles spaced apart from one another in a direction transverse to the axis of rotation of the at least one shredding shaft

In order, in particular, to facilitate the installation of a further housing with at least one further shredding shaft, at least one second alignment device can be provided, with which the at least one drive device and the at least one housing in relative to one another can be aligned in at least one direction transverse to the axis of rotation of the at least one shredding shaft, preferably wherein the at least one second alignment device comprises at least one pin and at least one pin receptacle, particularly preferably with a funnel-shaped opening

In order to simplify, in particular, the coupling of the coupling elements when changing the at least one shredding shaft, at least one third alignment device can be provided with which the at least one drive-side coupling element and the at least one shaft-side coupling element relative to one another in at least one direction parallel to the axis of rotation of the at least one Shredding shaft can be aligned, preferably wherein the at least one third alignment device comprises at least one, particularly preferably two, frustoconical projections spaced apart from one another in a direction transverse to the axis of rotation of the at least one shredding shaft.

It is advisable to provide at least one pillow block bearing via which a second end of the at least one shredding shaft is mounted in the at least one housing. As a result, the at least one shredding shaft can be stored in the housing in a particularly stable and secure manner.

Further preferred embodiments are characterized, alone or in combination with one another, in that shredding elements, preferably spaced apart in the axial direction, are arranged on the at least one shredding shaft, and / or the shredding machine has a total of exactly two shredding shafts, which are parallel to one another in at least one housing are arranged, preferably wherein the shredding shafts can be set in rotation mechanically synchronized with one another, and / or the at least one drive-side coupling element and the at least one shaft-side coupling element with one another by form-fitting connection elements can be connected non-rotatably, preferably wherein the form-locking connection elements comprise a hexagon socket and a corresponding counterpart, and / or the at least one housing comprises at least one bulkhead plate, with which at least one bearing point of the at least one shredding shaft can be protected from contamination by shredded material.

Protection is also sought after for a shredding system comprising at least one shredding machine according to the invention and at least one changing device for gripping, holding, lifting and / or transporting the at least one housing together with the at least one shredding shaft. The changing device can be a crane, for example.

• die wenigstens eine Zerkleinerungswelle wird mittels der wenigstens einen Verschiebevorrichtung relativ zur wenigstens einen Antriebsvorrichtung zumindest in einer Richtung parallel zu einer Drehachse der wenigstens einen Zerkleinerungswelle verschoben, wodurch das wenigstens eine antriebsseitige Koppelungselement und das wenigstens eine wellenseitige Koppelungselement entkoppelt werden, wobei die wenigstens eine Verschiebevorrichtung zwischen der wenigstens einen ersten Gehäuseseite des wenigstens einen Gehäuses und der wenigstens einen Antriebsvorrichtung wirksam ist,
• vorzugsweise wobei die wenigstens eine Zerkleinerungswelle durch die wenigstens eine Verschiebevorrichtung relativ zur wenigstens einen Antriebsvorrichtung in die Richtung parallel zur Drehachse der wenigstens einen Zerkleinerungswelle über einen Verschiebeweg zwischen 10 mm und 50 mm, vorzugsweise 30 mm, verschoben wird, und
• das wenigstens eine Gehäuse wird mitsamt der wenigstens einen Zerkleinerungswelle der Zerkleinerungsmaschine entnommen.

And finally, protection is sought for a method for changing at least one shredding shaft of a shredding machine according to the invention, characterized by the method steps, preferably in the specified chronological order:

• the at least one shredding shaft is moved by means of the at least one displacement device relative to the at least one drive device at least in one direction parallel to an axis of rotation of the at least one shredding shaft, whereby the at least one drive-side coupling element and the at least one shaft-side coupling element are decoupled, with the at least one displacement device between the at least one first housing side of the at least one housing and the at least one drive device is effective,
• preferably wherein the at least one shredding shaft is displaced by the at least one displacement device relative to the at least one drive device in the direction parallel to the axis of rotation of the at least one shredding shaft over a displacement distance between 10 mm and 50 mm, preferably 30 mm, and
• the at least one housing, together with the at least one shredding shaft, is removed from the shredding machine.

The primary reason for changing the at least one shredding shaft is that the at least one shredding shaft wears out, has to be removed and reconditioned. Another reason for a change can be that different materials are to be shredded with the same shredding machine, which require different cutting systems.

In order to be able to use the shredding machine as efficiently as possible, it is particularly important that the machine downtime caused by the change is as short as possible. This can be achieved by the method according to the invention.

Advantageous embodiments of the method are defined in the dependent claims. With regard to the advantages associated therewith, reference is made to the explanations relating to the advantageous embodiments of the shredding machine.

Fig. 1

eine Zerkleinerungsmaschine gemäß einem bevorzugten Ausführungsbeispiel in einer schematisch dargestellten perspektivischen Ansicht,

Fig. 2

die Zerkleinerungsmaschine gemäß dem bevorzugten Ausführungsbeispiel in einer Querschnittsdarstellung von der Seite, wobei die Servicetüren in der Darstellung weggelassen wurden und die Abweisschräge oberhalb des zweiten Endes der Zerkleinerungswellen vom Maschinengestell gelöst wurden,

Fig. 3a), b)

einen vergrößerten Ausschnitt 66 der Querschnittsdarstellung aus dem Bereich der Verschiebevorrichtung, wobei die Teilfigur a) den gekoppelten Zustand und die Teilfigur b) den entkoppelten Zustand zeigt,

Fig. 4

die Zerkleinerungsmaschine gemäß dem bevorzugten Ausführungsbeispiel und eine in gestrichelten Linien angedeutete Wechselvorrichtung in einer Querschnittsdarstellung von der Seite,

Fig. 5

eine Explosionsansicht der Antriebsvorrichtung und des Gehäuses mit den Zerkleinerungswellen in einer schematisch dargestellten perspektivischen Ansicht,

Fig. 6

die Antriebsvorrichtung und die beiden Zerkleinerungswellen ohne Gehäuse im entkoppelten Zustand in einer schematisch dargestellten perspektivischen Ansicht,

Fig. 7

die Antriebseinheit in einer schematisch dargestellten perspektivischen Ansicht,

Fig. 8

das Gehäuse mit den Zerkleinerungswellen in einer schematisch dargestellten perspektivischen Ansicht,

Fig. 9a), b)

den vergrößerten Ausschnitt 66 in einer weiteren Querschnittsdarstellung aus dem Bereich der Verschiebevorrichtung zur Darstellung insbesondere der drei Ausrichtvorrichtungen, wobei die Teilfigur a) den entkoppelten Zustand und die Teilfigur b) den gekoppelten Zustand zeigt,

Fig. 10

einen Ausschnitt in einer Draufsicht von unten auf die Antriebsvorrichtung und das Gehäuse aus dem Bereich der drei Ausrichtvorrichtungen, und

Fig. 11

ein Verfahren zum Wechsel wenigstens einer Zerkleinerungswelle einer Zerkleinerungsmaschine gemäß einem bevorzugten Ausführungsbeispiel in Form eines schematisch dargestellten Flussdiagramms.

Further details and advantages of the invention are explained in more detail below on the basis of the description of the figures with reference to the drawings. Show in it:

Fig. 1

a shredding machine according to a preferred embodiment in a schematically illustrated perspective view,

Fig. 2

the shredding machine according to the preferred embodiment in a cross-sectional view from the side, wherein the service doors have been omitted in the view and the deflection slope above the second end of the shredding shafts have been detached from the machine frame,

Fig. 3a), b)

an enlarged detail 66 of the cross-sectional view from the area of the displacement device, the part a) showing the coupled state and the part b) showing the decoupled state,

Fig. 4

the shredding machine according to the preferred embodiment and a changing device indicated in dashed lines in a cross-sectional view from the side,

Fig. 5

an exploded view of the drive device and the housing with the shredding shafts in a schematically illustrated perspective view,

Fig. 6

the drive device and the two shredding shafts without housing in the decoupled state in a schematically illustrated perspective view,

Fig. 7

the drive unit in a schematically illustrated perspective view,

Fig. 8

the housing with the shredding shafts in a schematically illustrated perspective view,

Fig. 9a), b)

the enlarged section 66 in a further cross-sectional view from the area of the displacement device to show in particular the three alignment devices, with partial figure a) showing the decoupled state and partial figure b) showing the coupled state,

Fig. 10

a detail in a plan view from below of the drive device and the housing from the area of the three alignment devices, and

Fig. 11

a method for changing at least one shredding shaft of a shredding machine according to a preferred embodiment in the form of a schematically illustrated flow chart.

the Figures 1, 2 and 4th show a shredding machine 1 for shredding material, comprising a shredding shaft 2, specifically illustrated In the case of exactly two shredding shafts 2, a drive device 3 with which the shredding shafts 2 can be set in rotation, a coupling device 4 with which the shredding shafts 2 and the drive device 3 can be coupled and decoupled, the coupling device 4 per shredding shaft 2 having a drive-side coupling element 5 and has a shaft-side coupling element 6, and wherein the shaft-side coupling element 6 is arranged in each case at a first end 7 of the shredding shafts 2.

The shredding machine 1 comprises a displacement device 8 with which the shredding shafts 2 can be displaced relative to the drive device 3 at least in one direction 9 parallel to an axis of rotation 10 of the shredding shafts 2, whereby the drive-side coupling element 5 and the shaft-side coupling element 6 can be coupled and / or decoupled

A housing 12 is provided in which the shredding shafts 2 are arranged at least in some areas. The housing 12 has a first housing side 13 through which the shredding shafts 2 pass with their first end 7. The displacement device 8 is effective between the first housing side 13 and the drive device 3 (see also FIG Figures 3a) and 3b )).

The shredding machine 1 can be of a stationary or a mobile design. In the case of the stationary version, it is advisable that the drive device 3 comprises an electric drive. In the case of the mobile version, it is advisable that the drive device 3 comprises an electric drive or a diesel-electric hybrid drive.

Comminuting elements 40 spaced apart from one another in the axial direction 9 are arranged on the shredding shafts 2 (see also FIGS Figure 6 ). These shredding elements 40 are particularly suitable for shredding waste. Alternatively, the shredding machine 1 could also be used, for example Metal crushing can be used. In this case, a comminution system with other comminution elements 40 would be used.

In a position of use of the shredding machine 1 above the shredding shafts 2, an at least partially funnel-shaped material feed space 25 is arranged (compare in particular FIG Figure 1 ). The material feed space 25 has a deflecting bevel 26 which is detachably connected to a machine frame 20 of the shredding machine 1 and which, in a connected state, is arranged above the second ends 27 of the shredding shafts 2. Attacking means 67 are arranged or can be arranged on the deflecting bevel 26, with which the deflecting bevel 26 can be lifted out of the material feed space 25.

A further deflecting bevel 61 can be arranged on the opposite side of the material feed space 25. This can be firmly connected to the machine frame 20.

Below the shredding machine 1, a removal device for shredded material can be arranged, for example in the form of a conveyor belt or the like.

The shredding machine 1 has service doors 29 on a side surface 28, the displacement device 8 being accessible from the outside when the service doors 29 are open. Service doors 29 can also be arranged on the side surface which lies opposite side surface 28 and is arranged parallel to side surface 28.

The shredding machine 1 has an operating unit 60, via which the shredding machine 1 can be controlled by an operator.

the Figure 2 shows the shredding machine 1 in a cross-sectional view from the side, the service doors 29 having been omitted from the view and the deflecting bevel 26 above the second ends 27 of the shredding shafts 2 have been detached from the machine frame 20.

The displacement device 8 has a push-off device 14 with which the shredding shafts 2 can be pushed off by the drive device 3 at least in one direction 9 parallel to the axis of rotation 10 of the shredding shafts 2, whereby the drive-side coupling element 5 and the shaft-side coupling element 6 can be decoupled.

In the specifically illustrated case, the displacement device 8 has exactly two push-off devices 14 spaced apart from one another in a direction 15 transverse to the axis of rotation 10 of the shredding shaft 2 (compare FIGS Figure 6 ), the push-off devices 14 each comprising a threaded bushing 16 and a threaded bolt 17 rotatably arranged therein (compare FIGS Figures 3a) and 3b )). The push-off devices 14 are arranged on the drive device 3.

The first housing side 13 can be releasably connected or connected to the drive device 3 via traction means 18, which in the specific case are designed as screws, the shredding shafts 2 by the traction means 18 at least in the direction 9 parallel to the axis of rotation 10 of the shredding shafts 2 to Drive device 3 can be pulled, whereby the drive-side coupling element 5 and the at least one shaft-side coupling element 6 can be coupled.

The housing 12 has a second housing side 19, the shredding shafts 2 being predominantly arranged between the two housing sides 13, 19, the two housing sides 13, 19 being arranged essentially parallel to one another.

The shredding machine 1 has a machine frame 20 and at least one releasable connecting device 21, with which the housing 12 can be releasably, preferably positively, connected to the machine frame 20.
The housing 12 can be connected to the machine frame 20 by the at least one connecting device 21 via the at least one second housing side 19.

In the specific case, two releasable connecting devices 21 spaced apart from one another in a direction 15 transverse to the axis of rotation 10 of the shredding shaft 2 are provided, with which the housing 12 can be releasably connected to the machine frame 20 in a form-fitting manner.

the Figures 3a) and 3b ) show an enlarged detail 66 of the cross-sectional view from the area of the displacement device 8, the partial figure a) showing the coupled state and the partial figure b) the decoupled state. The cutout 66 is in the Figure 4 shown in dashed lines.

In order to decouple the shredding shafts 2 from the drive device 3, the threaded bolt 17 can be set in rotation. It is supported in the threaded bushing 16 and in the process pushes the housing 12 and thus the shredding shafts 2 away from the drive device 3 in the axial direction 9. The coupling elements 5 and 6 are decoupled from one another.

In the specifically illustrated case, the shredding shafts 2 can be displaced by the displacement device 8 relative to the drive device 3 in the direction 9 parallel to the axis of rotation 10 of the shredding shafts 2 over a displacement path 11 between 10 mm and 50 mm, preferably 30 mm.

the Figure 4 shows the shredding machine 1 and a changing device 24 indicated in dashed lines.

The housing 12 has at least one engagement means 22 and / or at least one interface 23 for the releasable attachment of an engagement means 22 for a changing device 24 with which the housing 12 together with the shredding shafts 2 of the shredding machine 1 can be removed.

In the specific case, two interfaces 23 for the releasable attachment of a respective engagement means 22 in the form of a shackle and on the second housing side 19 two engagement means 22 are permanently arranged. The engagement means 22 can be attached to the first housing side 13 when the housing has been pushed away from the drive device 3 by means of the displacement device 8.

The changing device 24 can be designed for gripping, holding, lifting and / or transporting the housing 12 together with the shredding shafts 2. It can be a crane, for example.

The changing device 24 can be connected to the engagement means 22 via load-transmitting means 62, for example ropes or chains.

the Figure 5 shows an exploded view of the drive device 3 and the housing 12 with the shredding shafts 2.

A pillow block bearing 39 is provided in each case, via which a second end 27 of the shredding shaft 2 is mounted in the housing 12. As in the case shown, an engagement means 70 can be attached to the pillow block bearing 39 in order to remove the pillow block bearing 39 together with the shredding shaft 2 from the housing 12.

In the area of the second ends 27 of the shredding shafts 2, a welded-on sheet metal 69 with eyelets 68 can be arranged, the engagement means 22 for the changing device 24 (cf. Figure 4 ) can be connected to the eyelets 68.

The releasable connecting device 21, with which the housing 12 can be releasably positively connected to the machine frame 20, has a holding means 63 and a counter-holding means 64, the holding means 63 being connectable to the second housing side 19 in a form-fitting manner and the counter-holding means 64 to the machine frame 20 can be arranged. Holding means 63 and counter holding means 64 can be connected to one another, for example by means of screws.

The housing 12 has partition plates 43, with which bearing points of the shredding shafts 2 can be protected from contamination by shredded material.

The shredding machine 1 has a total of exactly two shredding shafts 2, which are arranged parallel to one another in the housing 12 (cf. Figure 6 ), wherein the shredding shafts 2 can be set in rotation in a mechanically synchronized manner with respect to one another.

The drive-side coupling element 5 and the shaft-side coupling element 6 can each be connected to one another in a rotationally fixed manner by form-fit connection elements 41, 42, the form-fit connection elements 41, 42 comprising a hexagon socket and a corresponding counterpart.

As from the Figure 6 and the following Figures 7 to 10 As can be seen, a first alignment device 30 is provided with which the drive device 3 and the housing 12 can be aligned relative to one another in at least one direction 9 parallel to the axis of rotation 10 of the shredding shafts 2, the first alignment device 30 having at least one frustoconical projection 31 and a receptacle 32 for this includes. In the specific case, the first alignment device 30 comprises two frustoconical projections 31 and receptacles 32 spaced apart from one another in a direction transverse to the axis of rotation 10 of the shredding shafts 2.

A second alignment device 33 is provided with which the drive device 3 and the housing 12 can be aligned relative to one another in at least one direction 15 transverse to the axis of rotation 10 of the shredding shafts 2, the second alignment device 33 having a pin 34 and a pin receptacle 35 with a funnel-shaped opening 36 includes.

A third alignment device 37 is provided with which the drive-side coupling element 5 and the shaft-side coupling element 6 can be aligned relative to one another in at least one direction 9 parallel to the axis of rotation 10 of the shredding shafts 2, the third alignment device 37 at least one, in the specific case two in a direction transverse to the axis of rotation 10 of the comminuting shafts 2 comprises frustoconical projections 38 spaced from one another.

the Figure 8 shows the housing 12 with the shredding shafts 2. A bearing plate 65 is arranged on the first housing side 13, on which the shredding shafts 2 rest in the decoupled state.

the Figure 11 shows a method 44 for changing at least one shredding shaft 2 of the shredding machine 1 according to a preferred exemplary embodiment in the form of a schematically illustrated flow chart.

According to this preferred exemplary embodiment, the method 44 comprises the following method steps:
In a method step 47, the one deflecting bevel 26 is released from the machine frame 20 (compare FIG Figure 1 ).

In a method step 48, the service doors 29 are on the side surface 28 of the The shredding machine 1 is opened so that the displacement device 8 is accessible from the outside (compare FIGS Figure 2 ). The service doors 29 on the opposite side surface can also be opened.

In a method step 49, the connection between the drive device 3 and the first housing side 13 provided by the traction means 18 is released.

In a method step 50, the connection between the housing 12 and the machine frame 20 provided by the releasable connecting device 21 is released.

In a method step 45, the shredding shafts 2 are displaced by means of the displacement device 8 relative to the drive device 3 at least in one direction 9 parallel to an axis of rotation 10 of the shredding shafts 2, whereby the drive-side coupling element 5 and the shaft-side coupling element 6 are decoupled, with the displacement device 8 between the first housing side 13 of the housing 12 and the drive device 3 is effective. The shredding shafts 2 are displaced by the displacement device 8 relative to the drive device 3 in the direction 9 parallel to the axis of rotation 10 of the shredding shafts 2 over a displacement path 11 between 10 mm and 50 mm, preferably 30 mm (cf. Figures 3a) and 3b )). In this case, the shredding shafts 2 are pressed with the pressing device 14 at least in the direction 9 from the drive device 3 (method step 51).

In a method step 52, two engagement means 22 for a changing device 24 are attached to two interfaces 23 provided for this purpose on the first housing side 13 (cf. Figure 4 ).

In a method step 46, the housing 12 together with the shredding shafts 2 is removed from the shredding machine 1. In this case, in a method step 53, a changing device 24 is provided over Attack means 22 connected to the housing 12 and the housing 12 together with the shredding shafts 2 (slightly) raised by means of the changing device 24, at least in the direction 9 parallel to the axis of rotation 10 of the shredding shafts 2 away from the drive device 3, preferably over a distance 54 between 50 mm and 150 mm, particularly preferably 100 mm (compare the Figure 3b )) and finally removed from the shredding machine 1.

In a method step 55, at least one further housing 12 with at least one further shredding shaft 2 is provided, and the at least one further shredding shaft 2 is coupled to the drive device 3. This can be a fresh comminution system with the same comminution elements 40 or a comminution system with different comminution elements 40 which are adapted to the comminution of other materials.

In a further method step 57, the drive device 3 and the at least one further housing 12 are aligned relative to one another in at least one direction 15 transverse to the axis of rotation 10 of the at least one shredding shaft 2 by means of the second alignment device 33. The pin 34 is inserted into the pin receptacle 35.

In a further method step 56, the drive device 3 and the at least one further housing 12 are aligned by means of the first alignment device 30 relative to one another in at least one direction 9 parallel to the axis of rotation 10 of the at least one shredding shaft 2 (cf. Figures 9a) and 9b )), the frustoconical projections 31 being inserted into the receptacles 32 provided for this purpose. In a method step 58, the drive-side coupling element 5 and the shaft-side coupling element 6 are aligned relative to one another in at least one direction 9 parallel to the axis of rotation 10 of the at least one further shredding shaft 2 by means of the third alignment device 37. The Form-fit elements 42 introduced into the drive-side form-fit elements 41 via the frustoconical projections 38.

In a further method step 59, the at least one further shredding shaft 2 is pulled by the provided traction means 18 at least in the direction 9 parallel to the axis of rotation 10 of the at least one shredding shaft 2 to the drive device 3, whereby the drive-side coupling element 5 and the shaft-side coupling element 6 are coupled.

Claims (18)

Crushing machine (1) for crushing material, comprising - at least one shredding shaft (2), in particular exactly two shredding shafts (2), - At least one drive device (3) with which the at least one shredding shaft (2) can be set in rotation, - At least one coupling device (4) with which the at least one shredding shaft (2) and the at least one drive device (3) can be coupled and decoupled, the at least one coupling device (4) having at least one drive-side coupling element (5) and at least one shaft-side coupling element (6), and wherein the shaft-side coupling element (6) is arranged at a first end (7) of the at least one shredding shaft (2), and - At least one displacement device (8) with which the at least one shredding shaft (2) can be displaced relative to the at least one drive device (3) at least in one direction (9) parallel to an axis of rotation (10) of the at least one shredding shaft (2), whereby the at least one drive-side coupling element (5) and the at least one shaft-side coupling element (6) can be coupled and / or decoupled, preferably the at least one shredding shaft (2) being driven by the at least one displacement device (8) relative to the at least one drive device (3) in the direction (9) parallel to the axis of rotation (10) of the at least one shredding shaft (2) can be displaced over a displacement path (11) between 10 mm and 50 mm, preferably 30 mm, characterized in that at least one housing (12) is provided in which the at least one shredding shaft (2) at least is arranged in regions, the at least one housing (12) has at least one first housing side (13) through which the at least one shredding shaft (2) passes with its first end (7), and the at least one displacement device (8) between the at least one first housing side (13) and the at least one drive device (3) is effective. Crushing machine (1) according to claim 1, wherein the at least one displacement device (8) has at least one forcing device (14) with which the at least one shredding shaft (2) at least in one direction (9) parallel to the axis of rotation (10) of the at least one shredding shaft (2) can be pushed off by the at least one drive device (3), whereby the at least one drive-side coupling element (5) and the at least one shaft-side coupling element (6) can be decoupled, preferably wherein - The at least one displacement device (8) comprises exactly two push-off devices (14) spaced apart from one another in a direction (15) transverse to the axis of rotation (10) of the at least one shredding shaft (2), and / or - The at least one push-off device (14) comprises at least one threaded bushing (16) and at least one threaded bolt (17) rotatably arranged therein, and / or - The at least one push-off device (14) is arranged on the at least one drive device (3). Crushing machine (1) according to claim 1 or 2, wherein the at least one first housing side (13) can be releasably connected or connected to the at least one drive device (3) via at least one traction means (18), preferably a screw, preferably wherein the at least a shredding shaft (2) through the at least one traction means (18) at least in the direction (9) parallel can be pulled to the axis of rotation (10) of the at least one shredding shaft (2) to the at least one drive device (3), whereby the at least one drive-side coupling element (5) and the at least one shaft-side coupling element (6) can be coupled. Crushing machine (1) according to one of claims 1 to 3, wherein the at least one housing (12) has at least one second housing side (19), the at least one shredding shaft (2) predominantly between the two housing sides (13, 19) is arranged, preferably wherein the two housing sides (13, 19) are arranged essentially parallel to one another. Shredding machine (1) according to one of claims 1 to 4, wherein the shredding machine (1) has a machine frame (20) and at least one detachable connecting device (21) with which the at least one housing (12) can be detached, preferably positively, with the machine frame (20) is connectable. Comminution machine (1) according to Claims 4 and 5, the at least one housing (12) being connectable to the machine frame (20) by the at least one connecting device (21) via the at least one second housing side (19). Comminution machine (1) according to one of claims 1 to 6, wherein the at least one housing (12) has at least one engagement means (22) and / or at least one interface (23) for the releasable attachment of an engagement means (22) for a changing device (24), with which the at least one housing (12) together with the at least one shredding shaft (2) of the shredding machine (1) can be removed. Comminution machine (1) according to one of claims 1 to 7, wherein - In a position of use above the at least one shredding shaft (2) at least one, preferably at least partially funnel-shaped, material feed space (25) is arranged, preferably with the material feed space (25) at least one detachably connected to a machine frame (20) of the shredding machine (1) Has deflecting bevel (26) which, in a connected state, is arranged above a second end (27) of the at least one shredding shaft (2), and / or - The shredding machine (1) has at least one service door (29) on at least one side surface (28), the at least one displacement device (8) being accessible from the outside when the at least one service door (29) is open. Comminution machine (1) according to one of claims 1 to 8, wherein - At least one first alignment device (30) is provided, with which the at least one drive device (3) and the at least one housing (12) relative to one another in at least one direction (9) parallel to the axis of rotation (10) of the at least one shredding shaft (2) can be aligned, preferably wherein the at least one first alignment device (30) comprises at least one, particularly preferably two, in a direction transverse to the axis of rotation (10) of the at least one shredding shaft (2), frustoconical projections (31) and receptacles (32), and or - At least one second alignment device (33) is provided, with which the at least one drive device (3) and the at least one housing (12) relative to one another in at least one direction (15) transverse to the axis of rotation (10) of the at least one shredding shaft (2) are alignable, preferably wherein the at least one second alignment device (33) at least one Pin (34) and at least one pin receptacle (35), particularly preferably with a funnel-shaped opening (36), and / or - At least one third alignment device (37) is provided with which the at least one drive-side coupling element (5) and the at least one shaft-side coupling element (6) relative to one another in at least one direction (9) parallel to the axis of rotation (10) of the at least one shredding shaft ( 2) can be aligned, preferably wherein the at least one third alignment device (37) comprises at least one, particularly preferably two, frustoconical projections (38) spaced from one another in a direction transverse to the axis of rotation (10) of the at least one shredding shaft (2). Comminution machine (1) according to one of claims 1 to 9, wherein - At least one pillow block bearing (39) is provided, via which a second end (27) of the at least one shredding shaft (2) is mounted in the at least one housing (12), and / or - Comminuting elements (40), preferably spaced apart from one another in the axial direction (9), are arranged on the at least one shredding shaft (2), and / or - The shredding machine (1) has a total of exactly two shredding shafts (2) which are arranged parallel to one another in at least one housing (12), preferably wherein the shredding shafts (2) can be set in rotation in a mechanically synchronized manner with one another, and / or - The at least one drive-side coupling element (5) and the at least one shaft-side coupling element (6) can be connected non-rotatably to one another by form-fit connection elements (41, 42), preferably wherein the form-fit connection elements (41, 42) comprise a hexagon socket and a corresponding counterpart, and / or - The at least one housing (12) comprises at least one bulkhead plate (43) with which at least one bearing point of the at least one shredding shaft (2) can be protected from contamination by shredded material. Shredding system comprising at least one shredding machine (1) according to one of Claims 1 to 10 and at least one changing device (24) for gripping, holding, lifting and / or transporting the at least one housing together with the at least one shredding shaft (2). Method (44) for changing at least one shredding shaft (2) of a shredding machine (1) according to one of Claims 1 to 10, characterized by the method steps (45, 46), preferably in the specified chronological order: - The at least one shredding shaft (2) is moved by means of the at least one displacement device (8) relative to the at least one drive device (3) at least in one direction (9) parallel to an axis of rotation (10) of the at least one shredding shaft (2), whereby the At least one drive-side coupling element (5) and the at least one shaft-side coupling element (6) are decoupled, the at least one displacement device (8) between the at least one first housing side (13) of the at least one housing (12) and the at least one drive device (3 ) is effective, - preferably wherein the at least one shredding shaft (2) through the at least one displacement device (8) relative to the at least one drive device (3) in the direction (9) parallel to the axis of rotation (10) of the at least one shredding shaft (2) via a displacement path (11) ) is shifted between 10 mm and 50 mm, preferably 30 mm, and - The at least one housing (12) is removed from the shredding machine (1) together with the at least one shredding shaft (2). The method (44) of claim 12, wherein - In a position of use of the shredding machine (1) above the at least one shredding shaft (2) at least one material feed space (25) is arranged, the material feed space (25) has at least one deflecting bevel (26) detachably connected to a machine frame (20) of the shredding machine (1) which is arranged in a connected state above a second end (27) of the at least one shredding shaft (2), and wherein in a further method step (47) the at least one deflecting bevel (26) is released from the machine frame (20), and / or - The shredding machine (1) has at least one service door (29) on at least one side surface (28), the at least one sliding device (8) being accessible from the outside when the at least one service door (29) is open, and wherein the at least one service door (29) is opened in a further process step (48). The method (44) of claim 12 or 13, wherein - the at least one first housing side (13) with the at least one drive device (3) are detachably connected to one another via at least one traction means (18), preferably a screw, and wherein in a further method step (49) the connection of the at least one drive device ( 3) is released with the at least one first housing side (13), and / or - The at least one housing (12) has at least one second housing side (19), the at least one The shredding shaft (2) is predominantly arranged between the two housing sides (13, 19), the shredding machine (1) has a machine frame (20) and at least one detachable connecting device (21) with which the at least one housing (12) is detachable is connected, preferably in a form-fitting manner, to the machine frame (20), and the connection of the at least one housing (12) to the machine frame (20) being released in a further method step (50). The method (44) according to any one of claims 12 to 14, wherein - The at least one displacement device (8) has at least one push-off device (14) with which the at least one shredding shaft (2) at least in one direction (9) parallel to the axis of rotation (10) of the at least one shredding shaft (2) of the at least one drive device (3) can be pushed off, and in a further method step (51) the at least one shredding shaft (2) with the at least one forcing device (14) at least in one direction (9) parallel to the axis of rotation (10) of the at least one shredding shaft (2) is pressed off by the at least one drive device (3), whereby the at least one drive-side coupling element (5) and the at least one shaft-side coupling element (6) are decoupled, and / or - The at least one housing (12) has at least one interface (23) for the releasable attachment of an engagement means (22) for a changing device (24) with which the at least one housing (12) together with the at least one shredding shaft (2) of the shredding machine (1 ) is removable, and wherein in a further method step (52) at least one engagement means (22) for a changing device (24) is attached to the at least one interface (23). Method (44) according to one of claims 12 to 15, wherein in a further method step (53) at least one changing device (24) is provided and connected to the at least one housing (12) via at least one engagement means (22), and wherein the at least one Housing (12) together with the at least one shredding shaft (2) by means of the at least one changing device (24) - is raised, and / or - At least in one direction (9) parallel to the axis of rotation (10) the at least one shredding shaft (2) is removed from the at least one drive device (3), preferably over a distance (54) between 50 mm and 150 mm, particularly preferably 100 mm , and or - Is removed from the shredding machine (1). Method (44) according to one of claims 12 to 16, wherein in a further method step (55) at least one further housing (12) with at least one further shredding shaft (2) is provided, and the at least one further shredding shaft (2) with the at least a drive device (3) is coupled. The method (44) of claim 17, wherein - The at least one first housing side (13) of the at least one further housing (12) can be detachably connected to one another with the at least one drive device (3) via at least one traction means (18), preferably a screw, and wherein the at least one further shredding shaft ( 2) in a further method step (59) by the at least one traction means (18) at least in the direction (9) parallel to the axis of rotation (10) of the at least one shredding shaft (2) to the at least one drive device (3), whereby the at least a drive-side coupling element (5) and the at least one shaft-side coupling element (6) are coupled, and / or - At least one first alignment device (30) is provided, with which the at least one drive device (3) and the at least one further housing (12) relative to one another in at least one direction (9) parallel to the axis of rotation (10) of the at least one shredding shaft (2 ) are alignable, and wherein the at least one drive device (3) and the at least one further housing (12) in a further method step (56) relative to one another in at least one direction (9) parallel to the axis of rotation (10) of the at least one shredding shaft (2 ) be aligned, and / or - At least one second alignment device (33) is provided, with which the at least one drive device (3) and the at least one further housing (12) relative to one another in at least one direction (15) transverse to the axis of rotation (10) of the at least one shredding shaft (2 ) are alignable, and wherein the at least one drive device (3) and the at least one further housing (12) in a further method step (57) relative to one another in at least one direction (15) transverse to the axis of rotation (10) of the at least one shredding shaft (2 ) be aligned, and / or - At least one third alignment device (37) is provided, with which the at least one drive-side coupling element (5) and the at least one shaft-side coupling element (6) relative to one another in at least one direction (9) parallel to the axis of rotation (10) of the at least one further shredding shaft (2) can be aligned, and the at least one drive-side coupling element (5) and the at least one shaft-side coupling element (6) in a further method step (58) relative to one another in at least one direction (9) parallel to The axis of rotation (10) of the at least one further shredding shaft (2) can be aligned.

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