DE19610094A1 - Crusher with crusher roll and feed conveyor - Google Patents

Abstract

The downstream end of the vibration trough (12) serving as material conveyor lies on a bearing element (82) which can change shape across the conveying direction and whose upper part as receiver channel (80) projects beyond the inlet sector of the material infeed wall (44). The bearing element is cylindrical, preferably a sleeve sector, has closed ends and is filled with fluid or pressurised gas, or again contains an elastically deformable volume of material. The working strand of a tined conveyor (56) spaced above the wall (44) steadily converges on the infeed wall in the conveying direction, the angle of the conveyor (56) being adjustable as is also its average distance from the infeed wall. The several commonly frame-set tined rollers (62,64) of the conveyor (56) are driven in their sequence in synchronism but gradually increase or decrease in speed by 5-10% in the conveying direction. The several peripheral ribs (52) of the crusher roll (30) core pass with clearance through the teeth of the anvil blade (42).

Description

The invention relates to a comminution machine according to the preamble of claim 1.

In such known shredding machines over a feed located under a storage container wall on which the material to be shredded under heavy force falls, a slide movable, which with its Face the material to be shredded in the radial direction presses against the circumferential surface of the shredding roller.

Such shredding machines build proportionately large because this slide is in the retracted state must be fully behind the feed wall, and behind the Slider at least part of the mechanics for moving the slide must be accommodated. Work too such slide conveyor devices are less good, if the material to be shredded has long parts like rods or contains bars.

The present invention is therefore intended to comminute nerungsmaschine according to the preamble of the claim 1 are specified, in which the material to be shredded Already essentially parallel to the surface of the Feed wall is directed onto the latter.

This object is achieved by a Shredding machine with those specified in claim 1 Characteristics.

In the shredding machine according to the invention feeding the material to be shredded onto the feeder wall using a vibrating trough. To ver  avoid pieces to be shredded between the surface of the feed wall and the free end of the Jamming the vibrating trough, which reduces the ability to vibrate the vibrating trough would be affected, is fiction according to the free end of the vibrating trough on a ver malleable bearing element, which is in transverse Direction extends over the feed wall and partially is sunk into it, partially survives from it.

Where below and in the claims directional information given, they either refer to the Direction of conveyance of the material to be shredded or up the axes of rotation of various rotating rollers the shredder.

The machine according to the invention also allows the front advice container, which contains the material to be shredded, at a location away from the shredder to set up. This enables larger storage containers to be used, if necessary, outside a factory building can stand. It is understood that not all Conveyor path between the storage container and the chopper nerungsmaschine formed by a vibrating trough have to be; it is sufficient if the last one, immediately section of the Conveying path is formed by a vibrating trough, while the rest of the conveyance path by other convention Liche sponsors B. conveyor belts can be formed.

Advantageous developments of the invention are in Unter claims specified.

With the development of the invention according to claim 2 is achieved that the free end of the vibrating trough only over a small area on the bearing element  and thus mounted tiltable about a transverse axis is.

A bearing element according to claim 3 can be price produce inexpensive standard material, e.g. B. from one Fire hose.

The development of the invention according to claim 4 is in terms of a relatively tough, anyway but storage following the movements of the channel end well of the channel end is advantageous because the protruding section of the piece of tubing can be easily rolled or relocated can, but still the vertical compression of the Lagerele mentes is limited. When filling the inside of the hose with gas under pressure, you can adjust the hardness of the vertical suspension of the channel end in a simple way adjust via the pressure of the gas.

In a shredder according to claim 5 one does a stronger dampening of the movement of the free End of the vibrating trough, on the other hand, that needs Bearing element is not tight and keeps its bearings properties even without inspection for a long time at.

With the development of the invention according to claim 6 becomes a forced movement of the comminuted material preserved across the feed wall.

In the case of a shredding machine according to An saying 7 an increasing adhesion in the conveying direction between the material to be shredded and the tine conveyor get, which also some compacting of the fed comminution material is obtained. Latter is advantageous because it is compacted  is better supported in itself and the chopping tools of the shredding roller less good can dodge.

The development of the invention according to claims 8 and 9 allows the increasing adhesion between Tine conveyor and shredded goods in a simple way adjust.

A tine conveyor according to claim 10 is characterized by particularly robust construction.

In a shredding machine according to claim 11 lower the material to be crushed to the level of the feed wall compacted to the right, but not in the conveyor direction. This is a jam of material not between the successive tine rollers to fear.

The development of the invention according to claim 12 takes place Use with such comminution material, in which an additional compression in the conveying direction it is asked for.

A crushing plant with the specified in claim 13 Features very good homogeneous diameter on two send shredded goods.

In a shredder according to claim 14 can the homogeneity of the shredded goods again improve.

The invention will now be further elucidated by way of example play explained with reference to the drawing. In this show:  

Fig. 1 shows a section through the vertical center plane of a grinding machine, with some machine components are shown seen from the side;

FIG. 2 shows a longitudinal section through a trough bearing body of the comminution machine according to FIG. 1 and the housing sections of the machine immediately adjacent to it;

Fig. 3 is a transverse section through the Lagerele element of Figure 2 along the section line III-III of Fig. 2; and

FIGS. 4 and 5. Views similar to Figure 3, in which modified gutter-bearing elements are shown.

In Fig. 1, 10 denotes a storage container which contains material to be shredded, e.g. B. wood waste, as they occur in window factories or joinery, plastic waste, as they arise in the disposal of household and industrial waste (z. B. yogurt cup, carpet material, plastic parts of motor vehicles, etc.).

The material to be comminuted falls from the underlying supporting from the reservoir 10 to a generally designated 12 vibrating trough. This comprises a frame 14 , on which springs 16 , 18, a conveyor trough 20 is swingably mounted. On the conveyor trough 20 , a total of 22 vibrator is introduced, which comprises a motor 24 driven by Un balancing 26 . Through the vibrator 22 , the conveyor trough 20 is vibrated substantially in the longitudinal direction, as indicated by a double arrow.

A comminution roller, designated as a whole by 30, is mounted in a housing 28 . This has a roller core which is provided with a plurality of triangular ribs 32 running in the circumferential direction and seen in the transverse sectional view. Recesses 34 are milled into the ribs 32 , which complement the rib flanks in the middle to form a rhombus. In the recesses 34 tool holder 36 are welded to which shredder 38 are attached. The ribs 32 and the recesses 34 each have an opening angle of 90 °, and accordingly the crushing tools 38 have a square shape. Their free edges protrude uniformly beyond the circumferential surface of the ribs 32 . In each of the ribs 32 are two opposite from recesses 34 with comminuting tools 38 are provided, and the recesses 34 of successive ribs are offset by a constant amount in the circumferential direction against each other, so that the comminuting tools are distributed 38 helically about the crushing roller 30th

The comminution tools 38 rotate with little play between teeth 40 of a counter knife 42 . The counter knife 42 is attached to a horizontal feed wall 44 of the housing 28 .

The comminution roller 38 is surrounded by a perforated screen 46 through which the comminuted material falls to an underlying collecting space 48 of the housing 28 . From this, the shredded material is carried away by a screw conveyor 50 , which is driven by a motor 52 .

A sliding plate 54 is inserted flush into the feed wall 44 , on which the material to be shredded can be pushed with little friction. The sliding plate 54 can be made of a wear-resistant hard metal or a suitable wear-resistant plastic material. Instead, the feed wall can be provided with a sliding coating.

A total of 56 designated tine conveyor is arranged above the slide plate 54 . This comprises a frame 58 which is pivotally attached to the housing 28 at the upstream end by pivot pin 60 . The frame 58 carries two tine rollers 62 , 64 , each of which has a roller core and conveyor tines 66 carried by the latter. The two tine rollers 62 , 64 each have a sprocket 66 , 68 , and the two sprockets are coupled by a chain 70 . The sprocket 66 is connected to the output shaft of a drive motor 72 a related party.

To adjust the inclination of the tine conveyor 56 , a hydraulic cylinder 74 is provided which engages with the free end of the frame 58 .

In a modification of the above-described game Ausführungsbei can be arranged on a frame 60, the auxiliary pivot, which in turn is then adjustable by another hydraulic cylinder in the vertical direction. In this way, the mean distance of the tine conveyor 56 from the top of the slide plate 54 can also be set.

In the embodiment described above, the chain wheels 66 , 68 have the same diameter. In a modification, the sprocket 68 can also be made smaller than the sprocket 66 , so that the tine roller 64 rotates somewhat faster than the tine roller 62 , so that the cross-sectional narrowing of the funnel formed between the tine conveyor 56 and the sliding plate 54 is somewhat compensated for. This is an advantage in connection with material that is already quite dense and can be shredded.

If the material to be shredded, on the other hand, is packed very loosely, the speed of the tine roller 64 can also be chosen to be smaller than that of the tine roller 62 , so that a cross-sectional reduction in the funnel lying between the tine conveyor 56 and the slide plate 54 can be obtained by means of the longitudinal compaction of the shredded material becomes. For this purpose, the sprocket 68 is chosen larger than the sprocket 66 .

Typical speed differences between the tine rollers 62 and 64 can be between about 5 and about 10 percent if it is not for the material to be shredded that is already fairly heavily precompacted or, conversely, is poured extremely loosely. In the latter cases, larger speed differences can also be selected.

It is understood that in cases where the speed difference should be adjustable without retrofitting the shredding machine, the two tine rollers 62 , 64 can be driven by two independent speed-controllable drives.

It is further understood that a larger number of tine rollers can also be used and that in the case of tine rollers 62 , 64 which run exactly synchronously, an endless conveyor can also be used which carries the conveyor tines 66 .

To drive the shredding roller 38 , a drive motor 76 is provided, the drive via a reduction belt 78 works on the shredding roller 38 , which thus rotates at low speed. This is an advantage in terms of high torque but also in terms of low noise during shredding.

At the upstream end, a transverse receiving channel 80 is provided in the feed wall 44 . In this sits a tubular bearing element 82 which cooperates with the free end of the longitudinally vibrating conveyor channel 20 . The bearing element 82 is ver formable, in particular it has a portion projecting over the receiving channel 80 , which easily follow by rearrangement of the longitudinal movement of the free channel end. In this way, no material can get stuck between the underside of the channel end and the top of the feed wall 44 .

As can be seen from FIG. 2, the bearing element 82 can be a piece of hose, e.g. B. a piece of a fire hose, which is tightly closed at both ends by means of screws 84 clamped clamps 86 , 88 ver. The interior of the bearing element shown in FIG. 2 can be filled with pressurized air via a valve 90 .

As can also be seen from Fig. 2, an upper portion of the element formed by a Lagerele element 82 is above the receiving channel 80 , and on it lies the free end of the conveyor trough 20 , as can be clearly seen in FIG . By rearranging the hose material of the bearing element 82 , the latter can follow the movements of the end of the conveyor trough well and seal it against the feed wall 44 in all phases of movement without the vibration of the conveyor trough 20 being strongly damped.

As can be seen from FIG. 2, the receiving groove 80 is passed through a window 92 , which is provided in a side wall of the housing 28 . In this way, the bearing element 82 can be easily pulled out of the housing 28 for replacement or maintenance. The valve 90 is mounted in the portion of the bearing element 82 projecting laterally beyond the housing 28 and is thus easily accessible even in the working position of the bearing element.

In the modified bearing element according to FIG. 4, the interior is filled of the element through a length of tubing formed bearing 82 with a liquid 94, for example. B. water or glycerin. Also filling materials with high viscosity, e.g. B. gel-like materials are suitable for filling the bearing element 82 .

While the bearing element 82 according to FIG. 2 can be controlled in its compliance by adjusting the pressure prevailing in its interior, in the bearing element according to FIG. 3 the bearing properties are predetermined after the filling of the hose piece.

In the further modified embodiment according to FIG. 5, the interior of the bearing element formed by a piece of hose is filled with an elastic mass 96 . This can be a foam material or a rubber material.

Claims (15)

1. Shredding machine, in particular for waste material, with a storage container ( 10 ) for the material to be shredded, with a shredding unit ( 30 , 42 ) which has a shredding tool ( 38 ) carrying circumferential shredding roller ( 30 ) and a stationary counter knife cooperating with it , which is attached to a feed wall ( 44 ) and whose free knife edge is adapted in its geometry to the clear contour of the circumferential shredding roller ( 30 ), and with a conveying device for placing the material to be shredded radially against the shredding roller ( 30 ), characterized in that the conveying device has a vibrating trough ( 12 ), the downstream end of which lies on a deformable transverse to the conveying direction bearing element ( 82 ) which projects with an upper portion from a receiving groove ( 80 ) which in an inlet-side portion of the feed wall ( 44 ) is provided. 2. Comminution machine according to claim 1, characterized in that the bearing element ( 82 ) has wesent union cylindrical shape. 3. Shredding machine according to claim 2, characterized characterized in that the bearing element is a hose piece is. 4. Shredding machine according to claim 3, characterized in that the piece of hose is closed at its ends ( 84-88 ) and is filled with a liquid speed ( 94 ) or with pressurized gas. 5. Shredding machine according to one of claims 1 to 3, characterized in that the bearing element ( 82 ) comprises an elastically deformable volume of material ( 96 ). 6. Shredding machine according to one of claims 1 to 5, characterized in that a tine conveyor ( 56 ) is seen at a distance above the feed wall ( 44 ). 7. Shredding machine according to claim 6, characterized in that the working strand of the tine conveyor ( 56 ) seen in the conveying direction has increasingly smaller distance to the feed wall ( 44 ). 8. Shredding machine according to claim 7, characterized in that the inclination of the tine conveyor ( 56 ) is adjustable. 9. Shredding machine according to claim 7 or 8, characterized in that the average distance between the tine conveyor ( 56 ) and the feed wall ( 44 ) is adjustable. 10. Shredding machine according to one of claims 6 to 9, characterized in that the tine conveyor ( 56 ) has a plurality of tine rollers ( 62 , 64 ) mounted in a common frame ( 58 ) which are driven essentially synchronously ( 66-70 ) . 11. Shredding machine according to claim 10, characterized in that the successive tines rollers ( 62 , 64 ) seen in the conveying direction have slightly increasing speeds, for. B. each have about 5 to about 10 percent higher speed. 12. Shredding machine according to claim 10, characterized in that the successive tines rollers ( 62 , 64 ) seen in the conveying direction have a slightly decreasing speed, z. B. each have about 5 percent to about 10 percent lower speed. 13. Comminution machine according to one of claims 1 to 12, characterized in that the shredding roller ( 30 ) has a roller core which has a plurality of ribs ( 32 ) running in the circumferential direction, which pass with play between the teeth of the counter knife ( 42 ), and in the circumferential ribs ( 32 ) recesses ( 64 ) are provided, in which the crushing tools ( 38 ) are attached, the active surfaces of which protrude beyond the fin surfaces and, compared to the play between the ribs and counter knife, smaller play between the Run teeth of counter knife ( 42 ) through. 14. Shredding machine according to one of claims 1 to 13, characterized in that the Zer reduction roller ( 30 ) is surrounded by a coaxial perforated screen ( 46 ). 15. Shredding machine according to one of claims 1 to 14, characterized in that the feed wall ( 44 ) is made of a low-friction material, is coated with such a material or carries a plate ( 54 ) made of such a material.