DE4018110A1 - Plastics hollow body shredder - has angled feed tube to angled blade disc to give unbroken supply for breaking down into smallest possible fragments - Google Patents

Abstract

Shredder to break down hollow bodies, partic. plastics cartridges has a feed tube (3) with its outlet end (15) towards the blade disc (14) opening directly above the blades (16). Feed tube (3) lies on a theoretical plane which forms an acute included angle with the radius extending form the rotary blade disc axis (18). Blade disc (14) is also angled on the feed tube plane, at an acute angle to the radial plane (RE) of the blade disc (14), with the apex of the acute angle in the direction of blade disc (14) rotation.

Description

The invention relates to a shredder for shredding Hollow bodies, in particular hollow plastic bodies, such as ge needed cartridges or similar hollow bodies, with a cutter that rotates one in a cutter housing bar-mounted and motor-driven, slotted Knife disc with knife blades attached to it points, and with a feed device for the zer shrinking hollow body.

Shredders are used for various applications sets, but especially in the hobby area for the chop Garden waste such as branches, leaves, grass or same.

The invention is based on the problem that with one-way ver packs for various purposes made of plastic or the same material existing hollow body used who a volume for transport and storage need and for further processing and loading action in this form are not suitable. Products, at to which this applies are, for example, disposable bottles or cartridges, such as those for packaging and further processing of sealable injectable joints materials are used. Such cartridges fall into on construction sites. There are still remains in them of the material to be processed. This one  Containers are tightly closed, the off also takes hardening of the material for a relatively long time. This will make the Further processing and further processing of the Altkar ink difficult.

Proceeding from this, the object of the invention reason to create a shredder that can be shredded such hollow bodies, in particular hollow plastic bodies, suitable is. It should be as small as possible Pieces can be achieved.

This object is achieved in that the Feed device consists of a feed pipe, which with its outlet opening facing the knife disc just above the knife blades ends that the Feed pipe in an imaginary plane with a radius, starting from the knife disc rotation axis, a pointed one Includes angles and that additionally in this plane with at an acute angle to the radial plane of the knife disc is inclined, the apex in the direction of rotation of the Knife disc points.

The advantage of this training is that due to the special arrangement of the feeder in the form of Feed pipe a largely automatic retraction of the to be crushed hollow body.

Another advantage is that the Vo to be transported lumen is significantly reduced. In case that it is, for example, used bottles further processing also favors that adhering filling material in a favorable way in a following treatment can be removed. For the  Case of application to cartridges, the sealing material contain, the curing takes place faster adhering remaining sealing material. Here too further treatment is promoted by.

A major advantage is that the feed pipe that directly up to the knife disc, or the Knife blades are introduced, even as counterhold for serves the shredding process.

It has been shown that particularly favorable Einzugsver Relationships arise when the imaginary level unites Angles from 65 ° to 75 °, in particular 70 °, to the radius closes and the angle of inclination in the imaginary Plane opposite the radial plane of the knife disc between 60 ° and 70 °, in particular 65 °.

This ensures that there is never a return springs of the material takes place, but that due to the In the feed pipe, there is a supply of materials to be shredded Hollow bodies is sufficient for a continuous Zer to achieve smaller.

The feed pipe is preferably attached to one on the cutting housing attachable lid attached. This will also Maintenance of the device is easier.

A particularly beneficial effect for achieving a small Partial good is achieved by the knife slice in front of a knife blade in the direction of rotation Pre-cutting knife is attached. The pre-cutting knife ensures a division of the hollow body before the actual separation.

This creates particularly favorable separation ratios when the pre-cutting knife is in the direction of rotation of the Knife disc has front cutting tip. To  can also be provided that starting from the Cutting tip two cutting edges at an angle to each other run. The cutting edges form a top view of the Knife the radii of a sector of a circle.

In the event that a continuous feed is featured is to be seen, it is proposed that the feed pipe driven feed device for those to be shredded Assign hollow body.

In a further embodiment, the feed is proposed Form tube so long that several axially one behind the other Hollow bodies that are to be shredded, added can be. The advantage of such an arrangement is that a significant reduction in noise when operating the Shredders enters. The ones in the feed pipe for the reduction in stocked hollow bodies dampen that Emergence of sound waves.

Furthermore, it can be provided that the feed pipe Storage container, inlet funnel or the like for the Bulk processing is upstream. The inlet funnel can also be used to facilitate insertion, because it does a pre-centering. To ensure, that the system on the one hand with a slight Noise level and on the other hand with an equal permanent quality of shredding can, it is provided that the feed tube has the cross section of the hollow body to be crushed is adapted and this leads.

A preferred example is in the drawing shown schematically.  

It shows

Fig. 1 a shredder cracks in the side view in order,

Fig. 2 is a side view of the cutting mechanism in section;

Fig. 3 shows the assignment of feed tube and knife disc in plan view, as a schematic diagram and

Fig. 4 is a schematic view in the direction of arrow X to FIG. 3.

The shredder 1 shown in Fig. 1 consists Wesent union from the header 2, in which the shredded into shredding good and is supplied to the supply pipe 3 via the filling hole 4, the material to be comminuted in the form of hollow bodies, such as the cartridge 7 is supplied, .

The comminuted material passes through the discharge opening 5 into a collecting device 6 . The cutting unit 2 is driven by a drive motor 8 , which can be designed as an electric motor or internal combustion engine. It can be attached to the cutting unit 2 via a bracket 9 . Furthermore, the cutting unit 2 is seen with a frame 10 ver, which also has wheels 11 .

From FIGS. 2 to 4 in detail the cutting unit 2, and that the cutting unit 2 associated feed tube 3 become apparent. The cutting unit 2 comprises the cutting housing 12 , in which the cutter disc 14 is rotatably mounted. The cutter disc 14 is seated on a drive shaft 17 mounted in the cutting housing 12 . The axis of rotation of the drive shaft 17 and thus of the cutter disc 14 is designated 18 . On the cutter disc 18 , a belt pulley 19 is rotatably attached, which is driven by a drive motor 8 via a belt 20 and a further pulley 24 arranged on the motor output shaft. The cutter disc 14 has a hub bore 21 with which it is placed on the drive shaft 17 . The non-rotatable connection between the drive shaft 17 and the cutter disc 14 is achieved by a wedge 22 . The cutter disc 14 is also fixed via a fastening screw 23 on the drive shaft 17 . The knife disc 14 rotates in the cutting housing 12 . On its upper side, as can also be seen from FIG. 3, it has knife blades 16 distributed circumferentially, which are attached adjacent to radially extending slots 26 . The knife blades 16 are partially lowered in the surface of the knife disk 14 attached. The radial plane of the knife disk 16 , from which the knives protrude blades, is denoted by R _E. In Fig. 3 it is also shown that the cutter disc 14 is driven in the direction of rotation N for shredding. A plurality of knife blades 16 arranged circumferentially distributed are provided. In the direction of rotation N 16 pre-cutting knives 27 are arranged in front of a knife blade. Before cutting knife 27 are designed in the plan view of FIG. 3 as circular sectors. Your cutting tip 28 points in the direction of rotation. Based on this, the two radii of the circular sector result as cutting edges 29 , 30 .

The attached to the cover 13 of the cutting housing 12 feed tube 3 has a tube axis 25th The outlet opening 15 of the feed pipe 3 is arranged above the cutter disk 14 , that is to say above the radial plane R _E. It ends or opens directly above the knife blades 16 at a distance which is intended to ensure that a perfect rotation of the knife disk 14 is possible. The guide tube 3 also serves as an abutment for the separation process.

The inner cross section of the feed tube 3 is designed such that the hollow bodies 7 to be shredded are guided exactly in the direction of the knife blades 16 . The narrowest possible guidance is required to achieve a clean cut. The feed tube 3 serves namely as an abutment for receiving the opposing forces to create the cut. On the other hand, the guide must ensure that the hollow bodies 7 to be shredded are conveyed in the direction of the cutter disc 14 without additional action. The feed pipe 3 is inclined twice in relation to the radial plane R _{E of} the cutter disk 14 . First, the imaginary plane E, which contains the axis 25 of the feed tube 3 , is at an acute angle α to a radius R, which starts from the axis of rotation 18 , angeord net. The apex is denoted by S and is on the radial plane R _E. Furthermore, the tube axis 25 in the imaginary plane E is still inclined at an acute angle β to the Ra dialebne R _E. The apex S lies in the direction of rotation N at the front. It is also still possible to tilt the plane E about an axis which in the intersection line of the radial plane R _E with the imaginary plane E towards the axis of rotation 18 in order to optimize the drawing conditions even further.

Reference symbol list

1 shredder
2 cutting unit
3 feed pipe
4 insertion opening of the feed pipe
5 Ejection opening of the cutting unit
6 collecting device
7 hollow body
8 engine
9 console
10 frames
11 wheels
12 cutter housing
13 lid
14 knife disc
15 outlet opening
16 knife blade
17 drive shaft
18 axis of rotation of the drive shaft
19 pulley
20 straps
21 hub bore
22 wedge
23 fastening screw
24 pulley
25 pipe axis
26 slot
27 pre-cutting knives
28 cutting tip
29, 30 cutting
E level
N direction of rotation
R radius
R _E radial plane of the knife disc
S vertex
α angle
β angle of inclination

Claims (11)

1. Shredder for shredding hollow bodies, in particular hollow plastic bodies, such as used cartridges or similar hollow bodies, with a cutting mechanism which has a slotted knife disk rotatably mounted in a cutting housing and is driven by a motor with slotted knife blades attached thereto, and with a feed device for those to be shredded Hollow body, characterized in that the feed device consists of a feed tube ( 3 ) which ends with its outlet opening ( 15 ) facing the cutter disc ( 14 ) immediately above the cutter blades ( 16 ), that the feed tube ( 3 ) is in an imaginary plane (E ), with a radius (R), starting from the cutter disc rotation axis ( 18 ), includes an acute angle (α) and that additional Lich in this plane (E) with an acute angle (β) to the radial plane (R _E ) of the cutter disc ( 14 ) is inclined, the apex (S) pointing in the direction of rotation (N) of the knife disc ( 14 ). 2. Shredder according to claim 1, characterized, that the imaginary plane (E) has an angle (α) of 65 ° up to 75 °, in particular 70 °, to the radius (R). 3. Shredder according to claim 1, characterized in that the angle of inclination (β) in the imaginary plane (E) relative to the radial plane (R _E ) of the cutter disc ( 14 ) is between 60 ° and 70 °, in particular 65 °. 4. Shredder according to claim 1, characterized in that the feed pipe ( 3 ) is attached to a cover ( 13 ) which can be fastened to the cutting housing ( 12 ). 5. Shredder according to claim 1, characterized in that on the knife disc ( 14 ) in each case in the direction of rotation (N) in front of a knife blade ( 16 ) a pre-cutting knife ( 27 ) is attached. 6. Shredder according to claim 5, characterized in that the pre-cutting knife ( 27 ) in the direction of rotation (N) of the cutter disc ( 14 ) front cutting tip ( 28 ). 7. Shredder according to claim 6, characterized in that starting from the cutting tip ( 28 ) two cutting the ( 29 , 30 ) and that the cutting edges ( 29 , 30 ) represent the radii of a circular sector in plan view. 8. Shredder according to claim 1, characterized in that the feed pipe ( 3 ) is provided with a driven feed device. 9. Shredder according to claim 1, characterized in that the feed pipe ( 3 ) axially one behind the other receives a plurality of hollow bodies ( 7 ). 10. Shredder according to claim 1, characterized in that the feed pipe ( 3 ) is connected upstream of a storage container, inlet funnel or the like. 11. Shredder according to claim 1, characterized in that the feed tube ( 3 ) is adapted to the cross section of the hollow body to be reduced ( 7 ) and leads it.