DE4121330A1 - Document shredding machine - has intake side and conveyor with openings to accept goods with limiting gap and safety device to protect against damage. - Google Patents

Abstract

The machine has an intake side (9) on the body (2) of the grinder (4) and a conveyor (5) with openings (8) on the outside for the goods to be shredded. There is a limiting gap (10) to limit the goods to a maximum thickness. There is a device control to protect the grinder from batches of goods of too great a thickness. This safety device controls the pressure deactivator nd changes the running of the grinder. ADVANTAGE - Has safety device to prevent damage to rotors.

Description

The invention relates to a document shredder, in particular special according to the preamble of claim 1.

The shredding plant of such document shredders must mostly driven with very high power to get enough cope with the large working width to be able to occur without already being among the usual ones to block the moment of resistance. Of that go pregnant dangers, especially accidents, out because e.g. B. still a plastic film when destroyed a very tear-resistant, already in the area of the insertion opening can form loop captured by the comminution, by which unwanted parts in the feed path and the crushing be pulled in and thereby internal ge can damage device parts. In particular, however, can also Body parts of a person are gripped and seriously injured.  

The limitation of the narrowest inlet cross-section to Shredder to lock against such parts or this backwater slit-shaped cross section do not ensure sufficient security because the Be limits of this cross-section under the occurring Give way under destructive or elastic forces. In addition, this means the maximum working strength of the documentary annihilator regardless of the performance of the Shredding plant on the relatively narrow slot width be borders, the shredding plant difficult to access, the Her remove stuck material from the document ver not difficult and maintenance of the shredding plant with special needs.

The invention is further based on the object, egg document shredder or for this individual assembly to create pen by the disadvantages of known training are avoided and in particular a high accident rate safety, if necessary with good access to the work area range, guaranteed.

At least one means is available to solve the problem an additional wise or in any combination Protection against unintentional access to running parts of the document shredder forms an expandability at least part of the conveying path for the shredding goods without removing the outer cladding, inside the document shredder's outer boundaries at least one storage space for yourself on the inlet side of the Shredding plant creates and / or minde at least external access to at least one of the ge called inner areas of the document shredder bil det without this all walls of the associated Ver  clothing area are removed or opened laboriously have to.

All of these facilities add to the limitation the access path to a safety cross-section and to Possibility of manually switching off the shredding plants and for cladding the shredding plant in a housing protection device against unwanted access to the Shredding plant or its shredding gap and also means for safe operation insofar as Be drive disruptions avoided or easily over maintenance can be wounded.

Safeguards against unintended access to the cer Smaller plants can be useful at least one shutdown have device that have at least one actuation limb affected by such parts in the sense of a shutdown is flowing, which is already at least partially in the Intake path, i.e. within the outer limits of the document annihilator. The actuator can for its operation a large area or in a large area Distribution arranged print area, along wel cher the shredded goods inevitably like must run along a guide surface. There is an advantage the arrangement is such that a feed or Direction of conveyance force sliding on the pressure surface essentially no one regardless of their amount Turn off, but rather to reinforce the on switch position of the actuator leads.

A spread at right angles to the printing surface force, on the other hand, leads to a lower amplification of the Switch-on position in a closer to the shredding plant lying part of the inlet path and in one  closing, more distant area does the same Spreading force a relatively low load on the actuation link to the switch-off position, this switch-off force however under all, the usual resilience of the document annihilator corresponding operating conditions ner than the holding force of the actuator in the one switch position is. Only at exceptionally high, close to the fracture limit of stressed parts switching off causes.

Withdrawal forces or forces contrary to the funding direction sliding on the printing surface or barb-like act on at least one shoulder adjoining this, already lead in much less than the described height to switch off. If a part is accidentally in the inflow path introduced and, if necessary, when reached or briefly withdrawn after passing through the narrowest cross section, this immediately leads to the drive motor being switched off tors, the disengagement of a gear or the effect a similar fuse. The shutdown takes place expedient over an over the entire mechanical actuation positive locking positive shutdown. Instead of or in addition, the shutdown is also with quasi touching at least one coded magnetic switch freely possible.

Is the inside cross section of the inlet path, for example by removing a Be opening to another room limit, by means of a tool-free procedure to expand the corridor, so you can unintentionally in the Remove parts that have penetrated the inlet path very well or free it from the mentioned wrap. The enema shaft can be in the area of a broadside of one Leg of an angular component to be limited, the  other leg on the outside of the document holder not one at the insertion opening as a continuation closes the opening which opens when the Component released simultaneously with the broadside mentioned is placed, so that there is a substantially expanded introductory opening results.

To the shredding plant, especially against such Ver to secure blockages up to the area of the inflow gap or its narrowest cross section can suffice, the shredding plant is designed so that by Um switch to reverse mode even in the opposite Can promote direction to the main direction of work, whereby to Inclusion of the then on the inlet side of the shredder no shredded material to be found inside the outside in the document shredder more closed, but useful due to the tool-free opening storage space accessible from the outside is provided. The verb between this storage space and the shredding plant is designed so that in the storage space through the Shredder pushed material to be closed only then the shutdown mentioned can result if a against other than the intended comminution material Solid is located in the returned goods.

The storage space can be from the same outside of the document be accessible like the insertion opening, and it can also be removed by removing one on the right catch limit to be expandable to a larger space any stuck comminution is easier to remove to be able to take. The storage space is advantageously arranged in this way net that from it the jammed comminution always through Weight automatically returns to the entrance of the Zer Smaller work is promoted so that it corresponds to  the working direction again can pass through in the main direction.

The operational security of the document shredder can also be significantly increased by the fact that a lighter and possibly Tool-free access to the shredding plant is given, so that this is visually checked at all times and / or manually by a person for maintenance can be achieved. This allows in particular on Entrance of the shredding clogging block lungs of material to be shredded. Is located the shredding plant at the bottom of the war tion shaft, so in the operating state above the Zer an upright partition wall that little at least one of the possible entrances to the shredding plant in the essentially blocked, but in the highlighted state ver two adjacent entrances to a very wide shaft binds, from which also the entire inflow path and the Storage space can be easily accessible. The access opening on the outside of the document shredder we can considerably more than a third, half or two thirds take this outside.

In order to operate the fuse manually or consciously or independently of the backup case or to open the feed path, the storage space for the return conveyance and / or the access to the shredding plant, a handle is provided which is expedient not in the area of the outside of the document destroyer, but instead within its outer boundaries, preferably in one of the shafts. For example, the guide surface associated with the actuating member of the feed path may be suitable for moving with the flat hand placed on it by frictional engagement while overcoming the holding or opposing forces, so that actuation is only possible if the feed path is adequately emptied. Correspondingly, securing members which secure the hood-like outer housing 2, which can be lifted upward from the base body 2 in its operating position, can be accessible only after such an actuation to the solution and, for. B. within the storage space and / or the feed path or close adjacent to the inlet side of the shredding plant.

These and other features go beyond the claims also from the description and the drawings, wherein the individual features each individually or too much reren in the form of sub-combinations in one execution form of the invention and realized in other fields be and advantageous as well as protectable execution represent representations for which protection is claimed here becomes. An embodiment of the invention is in the Drawings shown and will be explained in more detail below tert. The drawings show:

Fig. 1 is a document shredder according to the invention in longitudinal section through the conveying path and in cross section through the crushing plant,

Fig. 2 is a detail cross-section of FIG. 1 in ver größerter representation,

Fig. 3 shows a detail of FIG. 1 in an enlarged and differently sectioned representation and

Fig. 4 shows the detail of FIG. 3 in a different functional position.

The document shredder 1 is particularly suitable for the stacked processing of sheet layers of paper, plastic film or the like and has a base body forming the device by 2 , lying almost completely within a hood-shaped outer housing 3 on the base of the Device for parking on an arbitrary foreign surface and forms a drivable crushing unit 4 lying completely inside the outer housing 3 . The outer housing 3 and the base body 2 who passes through between two opposite sides of a conveyor path 5 for the comminuted material, on which this is moved in the usual Vorlaufför change first by manual insertion and then by the shredding unit 4 .

From a substantially horizontal plane lying insertion opening 8 on an outer side of the outer casing 3 to the inlet side 9 of the shredding unit 4, this conveying path bil det detects an inlet path 6 in the form of a closed inlet shaft 7 in the normal operating state in cross section over the circumference is narrowed in the shape of a funnel in a uniform manner. In the area of the second third of the length of the inlet path 6 , the inlet shaft 7 with a limiting passage 10 forms a narrowest, slit-shaped zone through which the maximum stack thickness to be conveyed into the shredding unit 4 is limited and which is at a relatively large distance above the inlet side 9 is.

The inlet shaft 7 is limited in cross section according to FIG. 1 by two, at approximately an acute angle, approximately flat, smooth-surface guide surfaces 11 , 12 , between which its central plane 13 lies and which are associated with the longitudinal limits of the passage 10 , and an assembly with the outer housing 3 form. Laterally on the long sides, the inlet path 6 in the area of the inlet shaft 7 is limited by lateral guide surfaces 14 of the outer housing 3 , which converge at a substantially smaller angle than the guide surfaces 11 , 12 to the passage 10 . After the passage 10 , the inlet path 6 is limited laterally by the basic body by 2 or by parallel plates which are fastened to the basic body 2 .

The six outer boundaries of the document shredder 1 , which forms an approximately cubic spatial body, are essentially at an angle to one another and can each be approximately flat. The upper, flat outer boundary 15 is formed by the top wall of the outer housing 3 and connects in section according to FIG. 1 to two mutually opposing, upright outer boundaries 16 , 18 , one of which lies on the user side 17 of the document shredder 1 , one of which ago the user serves the device and to which the insertion opening 8 is closer than from the other outer boundary 18 . Corresponding lateral outer boundaries 19 are also formed by upright walls of the outer housing 3 and are formed in one piece therewith.

On or from a single, approximately flat outside 15 lying or accessible are securing means 20 for several re security functions or the actuator 21 is provided. This actuator 21 forms the loading user side 17 upward at a few angular degrees over hanging opposing guide surface 11 with a wall-shaped boundary 22nd The opposite guide surface 12 is formed as obliquely to the passage 10 at less than 45 ° from falling slide ramp by a rigid, wall-like boundary 23 of the outer housing 3 , which connects to the associated inner edge of the substantially rectangular th insertion opening 8 and in contrast to the guide area 11 does not face outwards beyond the outer boundary 15 .

At the guide surface 12 , in the area of the passage 10, a chute 24 for the comminution material connects almost completely as a continuation, which falls slightly more inclined, extends essentially to the inlet side 9 and forms an assembly with the base body 2 .

The shredding unit 4 has two approximately parallel axes sen rotatably mounted tools 25 , 26 in the form of approximately the same cutting rollers, each of which in its longitudinal direction has a large number of axially adjacent cutting rings 27 and annular grooves 28 between them, into which the Engage the cutting rings of the other tool approximately up to the groove base and axially with almost no play. The cutting rings 27 can be serrated on the outer circumference. The two tools 25 , 26 grip one another over an arc angle of approximately 45 ° and form a crushing gap 30 in this area, which determines a plane 29 perpendicular to their common axial plane. This is approximately parallel to the center plane 13 , but offset from this by the guide surfaces 12 , 24 away.

On the inlet side 9 , the outer circumferences 32 of the tools 26 , 27 form a funnel-shaped gap entrance 31 at the associated end of the comminution gap 30 at the point at which they start to engage with one another. In the arc distance on both sides of this slit entry 31 located in the slit plane 29 , the tools 25 , 26 engage wipers 33 from the radially outside, each of which forms a row of stripping bodies closest to the slit entry 31 , which into the annular grooves of the associated tool 25 , 26 intervention.

Between adjacent plate-shaped wipers, plate-shaped spacers can be provided, which are located close to the outer circumference 32 of the cutting rings 27 . The wipers and spacers are expediently broken down in an axial row next to each other on a rod-shaped support 34 which is fastened to the base body 2 be. All these components can over the Ar beitsbreite the crushing plant 4 form the associated loading limits of the feed path 6 through which the Zer material to be shredded. At the corresponding plate edges of the scraper 33 of the tool 25 lying closer to the slide 24 , the slide 24 connects directly, these plate edges being inclined less steeply than the guide surface 12 and / or the slide 24 . The corre sponding, the inlet side 9 facing plate edges of the scraper 33 and the associated carrier 34 form on the other side of the splitting plane 29 a similar loading or guiding surface, which from an area at a distance outside the circumference 32 approximately to the groove base of the respective annular groove 28 is enough. To the feed path 6 , the two tools 25 , 26 are exposed approximately at the same arc angles, which are larger than the arc angle of the crushing gap 30 .

On the outlet side, the comminution gap 30 between the tools 25 , 26 forms a gap outlet 35 lying in the gap plane 29 , with a stripper 36 with a corresponding carrier 34 being provided on both sides of the gap plane 29 for each tool 25 and 26 . The wipers 36 , which can be formed by the same assemblies as described with reference to the wipers 33 , are asymmetrical with respect to the splitting plane 29 , the wiper 36 , which is located on the side of the culvert 29 facing away from the passage 10 , having a corresponding guide surface Bo Genabstand of only a few degrees from the gap exit 35 and its guide surface is almost the same or steeper than the ge inclined as the center plane 13 to the user side 17 slit plane 29th The associated scraper 36 for the tool 25 , in contrast, has a much larger arc distance from the gap exit 35 , so that its order is here exposed to about the same arc angle as on the inlet side 9 and the scraper 36 forms an approximately vertical guide surface.

Each scraper body forms two scraper edges which are approximately adjacent to its two lateral plate edges and point away from one another in the region of the associated groove base, the arc spacing of which can be approximately 90 ° from one another. In the normal, counter-rotating and from the gap entrance 31 to the gap exit 35 promoting rotary movement of the two tools ge 25 , 26 in the area of the gap exit 35 , the mutually facing stripping edges of the strippers 36 are effective first, and then the stripping edges of the strippers following them and oriented in the same direction 33 can take effect.

In the opposite direction of rotation of the tools 25 , 26 , in which comminuted material can be conveyed from the gap exit 35 to the gap entrance 31 , the mutually facing stripping edges of the strippers 33 and then, if appropriate, the following stripping edges of the strippers 36 are effective. Below the Schachtausgan ges 35 and the lower wiper 36 , a bottom wall of the base body 2 is penetrated by a shaft outlet 37 , through which shredded material from the document shredder ter 1 can fall into a container that may be free-standing.

The tools 25 , 26 are on two approximately parallel, on the inside of the Außenbegrenzun conditions 19 provided side cheeks 38 of the suitably housing-shaped sheet metal base body 2 , to which the carrier 34 are attached and with their insides essentially on connect the associated control surface 14 . From the inlet side 9 or from the gap entrance 31 , the upper sides of the tools 25 , 26 and the opposing guide surfaces of the wipers 33 , a storage space 39 extends upwards at an acute angle in cross section according to FIG. 1 and extends over the upper side of the base body 2 also extends approximately to the outer boundary 15 and has a storage volume that corresponds to at least half the volume of the inlet shaft 7 or can be the same size as or larger than this volume.

This storage space 39 , the bottom of which is formed by the exposed parts in the area of the inlet side 9 of the circumferences 32 of the tool 25 , 26 , includes the part between the passage 10 and the gap entrance 31 part of the inlet path 6 , lies transversely to the central plane 13 and cleavage plane 29 immediately adjacent to the feed shaft 7, extends substantially over the same width dimension as the feed path 6, transverse to said planes one of the insertion hole 8 corresponding approximately largest inner width is the gap 30 we niger greatly narrowed as the feed shaft 7 and is separated from the shaft 7 by a wall-like separating body 40 which, in the manner of a downward tapering in the wall thickness, pull-out separating sword freely up to th through the outer boundary 15 and between the guide surfaces 14 extends approximately to the passage 10 .

This separating body 40 is essentially formed by a sheet metal hollow or box section, which is approximately U-shaped in cross section according to FIG. 1 and with a limb the boundary 22 with the guide surface 11 bil det. The edge between this leg and the U-crosspiece forms the longitudinal boundary or boundary edge 43 of the passage 10 , which is approximately the beginning of the chute 24 corresponding to the slot width at a distance, and which is thus formed over a very small area only by the rounded transition edge between two angle legs, which both lie at oblique angles to the slide 24 or approximately symmetrically on the one side of this perpendicular central plane.

The lower, directed away from the slide 24 and the boundary edge 43 forms an acute angle to the slide 24 and freely in the associated section of the inlet path 6 , the inlet side 9 facing actuation pressure surface 42 of the actuator 21 and a rising to the storage space 39 Guide surface of a self-diverting switch 73 , through which the returned comminuted material is guided into the storage space 39 and away from the passage 10 during reversing operation. This pressure surface 42 is angled into the upright or ver tical boundary 44 of the storage space 39 closer to the inlet shaft 7 , which is formed by the other U-leg and extends at least to the outer boundary 15 or over this as the limitation 22 after protrudes outside.

An imaginary extension of the boundary 44 in the direction of the shredding unit 4 lies at a distance from the circumference 32 of the tool 25 between the ends of the guide surface formed by the chute 24 and the subsequent scraper 33 . One or both ends of the separating body 40 forming pro files can be closed or open on these attached walls, where they are then closed by close connection to the associated guide surface 14 and the closed cavity is accessible when the separating body 40 is removed. The guide surfaces 14 advantageously go from the boundary 23 to one of the boundary 44 above the tool 26 opposite or upright boundary 41 of the storage space 39 , which, like the boundary 23 , but inclined more steeply with respect to it, from the outer boundary 15 essentially starts in one piece and connects with its lower end to the input-side surface of the associated scraper 33 . The separating body 40 is tapered in view and in cross section to its free end.

An at least about a third corresponding part of the outer boundary 15 of the document shredder 1 is formed by an at least partially or with a gap outside the associated housing wall, flat plate-shaped housing flap 45 which extends approximately over the entire housing width and at a distance between the outer boundaries 16 , 18 is approximately parallel to the outer limit 15 .

At the top of the storage space 39 and the separating body 40 , this housing flap 45 forms a flat shell-shaped cover part 46 for the outer housing 3 of fen, with which a storage space opening 47 is closed in the operating state, which surface approximately 15 in the plane of the insertion opening 8, the full inner width of the storage space 39 or is limited by the upper ends of the boundaries 41 , 44 and the guide surfaces 14 , which diverge steplessly up to these upper ends. The housing flap 45 is pivotally mounted in the region of the upper end of the boundary 41 or at a distance between the outer boundaries 16 , 18 and at a short distance outside the outer boundary 15 about a pivot axis 48 which is on the side of the storage space opening 47 further away from the insertion opening 8 approximately parallel to the outer boundary 15 or horizontally and approximately parallel to the longitudinal direction of the shredding gap 30 above the tool 26 of the shredding unit 4 and in a distance corresponding to the associated width of the storage space 39 or the insertion opening 8 from the separating body 40 and the inlet shaft 7 lies.

The axial plane 49 of the pivot axis 48 , which is approximately perpendicular to the guide surface 11, intersects the guide surface 11 approximately in the middle of its height or slightly above it, as a result of which the moment forces explained result due to spreading or normal forces which act on the guide surface 11 . The upper leg ends of the separating body 40 protrude into the cover part 46 , in which the separating body 40 is fixed in position. When swiveling the housing flap 45 , the separating body 40 including the boundary edge 43 is pulled out of the housing 3 in a relatively weakly curved arc path, the boundary edge 43 possibly pushing stuck material onto the guide surface 12 and then the inlet shaft 7 at the boundary 22 or . The storage space 39 at the boundary 44 at full width and length or height is exposed in such a way that both rooms form a transversely to the central plane 13 substantially expanded, free Ge entire space through which the conveyor path 5 to the gap input 31 is free. The swivel angle can be at least 90 or 180 °, and / or the housing flap 45 can also be easily or essentially tool-free, completely removable from the outer housing 3 by a corresponding detachable design in the region of the swivel axis 48 .

The housing flap 45 as a whole and, in particular, the winch-shaped part of the separating body 40 adjoining the inlet shaft 7 form a member which can be influenced by objects in the inlet path 6 and which detects these objects according to dimensions, direction of movement and / or movement force, and varies depending on the keying result Can give tax signals. It would be conceivable to provide at least one corresponding, possibly contactless sensor in the area of at least one of the guide surfaces, but a purely mechanical detection and transmission of the control signal be particularly safe, the guide surface 11 , the pressure surface 42 , the boundary 44 and / or the inside of the cover part 46 can form a substantially continuous over the associated working width and / or the extension transverse to the continuous actuating surface, which leads to the triggering of the actuation when loaded in any partial surface area. In the case of the guide surface 11 and the limitation 44 , this will generally be a sliding friction load, while in the case of the pressure surface 42 and the cover part 46 it is a normal or compressive force. By this force, the housing flap 45 is pivoted outward against its weight, whereby it actuates at least one switching element 50 , which is within a lateral hollow cheek 51 of the outer housing close to the outer limit 15 . The hollow cheek 51 on each side of the housing is formed by the outer boundary 19 , the inwardly spaced wall part of the guide surface 14 and the associated section of the outer boundary 15 and is therefore open to the inside of the housing in the manner of a U-profile, with a control housing adjacent to the outer boundary 15 the switching element 50 is used.

The actuator 21 has a large distance from the pivot axis 48 , namely close adjacent to the front end thereof facing away from the housing flap 45, approximately between the guide surfaces 11 , 12 for each switching element 50, a switching driver 52 which extends transversely to the outer boundary 15 a flap cheek 53 projecting above the guide surface 11 protrudes and engages in an engagement opening 54 of the switching element 50 with a switching finger 55 . Adjacent to the switching element 50 is a switch 56 within the control housing, the switching arm 57 of which runs with a rotor 58 on the outer circumference of the rotatable switching element 50 and engages in the switch-on position of the shredding unit 4 under spring loading in a recess 59 on this outer circumference. Adjacent to the recess 59 , the outer circumference forms an essentially cylindrical switching cam 60 . The switching element 50 is spring-loaded to the switch-off position according to FIG. 4 with a securing spring 61 and, if it is released by the driver 52 , is moved by this spring into the switch-off position and secured there with a counter-stop 63 resting against a stop 62 .

The switching element 50 is rotatably mounted about an axis of rotation 64 coinciding with its central axis. In the switch position, it is held against the force of the securing spring 61 by the fact that the driver 52 abuts with its end edge on the associated flank or engagement shoulder 65 of the engagement opening 54 . The opposite flank forms a release shoulder 66 for positive entrainment by the shift finger 55 when it is pivoted with the actuating member 21 . The driver 52 engages through slot-shaped openings 67 in the top walls of the hollow cheek 51 and the control housing. If the housing flap 45 is pivoted outwards, the switching element 50 is not only positively taken to the switch-off position not only by the locking spring 61 , but also by sliding the switching finger 55 on the release shoulder 66, and the switch 56 is also positively controlled to the switch-off position by which the shredding unit 4 is suddenly stopped. When swinging back into the operating position, the shift finger 55 runs onto the engagement shoulder 65 and transfers the switching element 50 in a form-fitting manner against the force of the securing spring 61 into the switch-on position, so that the switch arm 57 also returns to the switch-on position under its Fe force and the shredding unit 4 starts again. Only with a socket wrench corresponding to the driver, the switching element 50 can be brought into the on position even when the flap is open.

The flaps cheeks 53 may form, with their inner limbs outside the outer boundary 15 lying continuations of the guide surfaces 14 in the associated area of the inlet duct 7, but extend only over a portion of the associated extension of the insertion opening 8 and close these guide surfaces at an angle to the outside of the outer boundary 15 lying part of the guide surface 11 .

In the operating position, the actuator 21 is located with the undersides of its flap legs 53 adjacent to the drivers 52 each on an elastic damping 68 in the form of a projecting beyond the outer limit 15 damping body, which defines the actuator 21 under its Ge weight force as a stop. The locking spring 61 or the like constantly acts against the weight of the actuating member 21 which is in the working position without latching. By adjusting the spring force or the like, the triggering force can be changed or adjusted in the manner of a pressure point setting.

Below the inlet shaft 7 or the boundary 23 , a flange-mounted to the base body 2 motor 69 of a drive 70 for the shredding unit 4 is arranged in a motor chamber 71 which is essentially sealed against the spaces for the material to be shredded, the transmission connection of which with the tools 25 , 26 is on the outside of one of the side walls 38 within the opposite outer limit 19 . On the opposite side or at the corresponding end, the base body 2 between its side cheeks 38 to the boundary 41 or the associated stripper 33 or 36 or its support 34 is then closed in the manner of a housing, so that from the housing space thereby formed no comminuted material can get into the remaining outer housing 3 and there is also a substantial reinforcement of the base body 2 .

Inside the outer housing 3 , at least one hedging member 74 can be provided for securing against the base body 2 in such a way that it can only be accessed after the actuating member 21 has been actuated and therefore after the Zer reduction unit 4 has been switched off, so that the outer housing 3 can then only be removed from the shredding unit 4 can be lifted off.

If the housing flap 45 is unfolded, there is an extension from the boundary 23 , 24 to the boundary 41 which, through this to the shredding unit 4, is narrowed at almost a right angle and between the two guide surfaces 14 extends over the entire working width of the maintenance shaft 72 with a correspondingly large, continuously through access opening 8 , 47 , so that, for. B. Cleaning work on the shredding unit 4 or on the exposed wipers 33 can be carried out well.

Have 7 supplied parts inadvertently Lich, z. B. deforming the boundary 22 and Aufwei device of the passage 10 , this happens and they are then withdrawn in the opposite direction, so if they can not pass through the passage 10 again, practice in the area of the boundary edge 43 a pressure on the pressure surface 42 out, which leads to pivoting the entrainment of the actuator 21 and shutdown.

If the shredding unit 4 is operated in the opposite direction and is then formed by back-conveyed shredded material in the area of the passage 10, the jam also presses against the pressure surface 42 and can actuate the actuator 21 . Strong, ent long the limit 44 upward frictional forces due to the returned comminuted material or an overfilling of the storage space 39 reaching to the cover part 46 can lead to switching off. If no jam occurs during the return conveyance, part of the material can fill in a jumping corner zone between the slide 24 and the pressure surface 42 and then as a sliding or guiding surface for the soft-like feeding of the material into the area of the storage space above the pressure surface 42 39 act. The storage space 39 can be emptied either by preliminary operation via the comminution gap 30 and the gap outlet 35 or after opening the housing flap 45 through the storage space opening 47 .

Since the separating body 40 has a relatively large volume, traffic jam seals can be loosened even if the inlet shaft 7 and the storage space 39 are clogged because the pulled-out separating body 40 provides space for this. Due to the design described, the passage 10 is obviously self-locking when its limits in the feed direction are loaded and is self-expanding in the case of opposed loads.

The actuator 21 or the housing flap 45 is a ge of the switching element 50 on the outer housing 3 and therefore can be lifted with this from the base body 2 , where in the outer housing 3 could also consist of mutually independent from removable sub-housings, one of which then mentioned Carries components. The claimed or explained securing means, actuators, surfaces, pressure surfaces, boundaries, housing flaps, housing parts, webs or shafts, rooms, etc. can each be different or their features shown can be provided in any combination with a single associated component be. All features can be provided as essentially or exactly as presented depending on the requirements.

Claims (20)

1. Document shredder with a running in a Betriebszu, an inlet side ( 9 ) determining, on a base body ( 2 ) provided shredding unit ( 4 ) and an inlet path leading to this ( 6 ) of a conveying path ( 5 ) with an insertion opening accessible from the outside ( 8 ) for good in the form of comminution good of in particular by a limiting passage ( 10 ) predetermined maximum strength, characterized in that additional securing means ( 20 ) are provided against access of parts to the running crushing plant ( 4 ), which the predetermined maximum Exceed strength. 2. Document shredder according to claim 1, characterized in that the securing means ( 20 ) are effective in the case of the shredding material accessible or in the operating state of the shredding unit ( 4 ) and preferably a control for the compulsory deactivation, in particular for at least partial shutdown, of the running shredding plant ( 4 ). 3. Document shredder according to claim 1 or 2, characterized in that the securing means ( 20 ) at least one on shredded material or parts of different strength and / or direction of movement under differently appealing sensing element, in particular in an area between the insertion opening ( 8 ) and one Have a space in front of the shredding unit ( 4 ), the sensing element being preferably seen in the area of a boundary of the insertion opening ( 8 ) and / or an inlet duct ( 7 ) leading to the passage ( 10 ). 4. Document shredder according to one of the preceding claims, characterized in that the securing means ( 20 ) have at least one movable on a device, in particular on an outer housing ( 3 ), gela gert actuator ( 21 ), preferably as a broadside limitation forms at least part of the inlet path ( 6 ) and / or is provided with at least one large-area guide surface ( 11 ) for the comminution material, essentially at an acute angle to at least one approximately opposite guide surface ( 12 ). 5. Document shredder according to one of the preceding claims, characterized in that at least one actuating member ( 21 ) of the securing means ( 20 ) to be influenced mechanically by the comminution means ( 20 ) little least partially over at least one approximately opposite guide surface ( 12 ) for the comminution good, in particular in Vertical section in an upright standing arrangement, is provided and preferably ge against a user side ( 17 ) of the document shredder ( 1 ). 6. Document shredder according to one of the preceding claims, characterized in that at least one actuating member ( 21 ) of the securing means ( 20 ) with an actuating surface in the region of the passage ( 10 ), in particular to a ge under pressure force at least one inhibition, such as a Locking inhibition, be movable limit ( 43 ) of this passage ( 10 ) is heard, which is preferably slit-shaped and expandable under a predetermined overload force. 7. Document shredder according to one of the preceding claims, characterized in that at least one guide surface section ( 11 ) of at least one boundary ( 22 ) of at least part of the feed path ( 6 ) can be moved to the expansion and in particular essentially uniformly across the width and / or length of the insertion opening ( 8 ) or the feed path ( 6 ) distributed or formed by a single, essentially dimensionally stable guide member of the securing means ( 20 ) and preferably in cross section at least from an outside ( 15 ) of the document shredder ( 1 ) to we at least extends to the passage ( 10 ). 8. Document shredder according to one of the preceding claims, characterized in that at least one actuating member ( 21 ) of the securing means ( 20 ) is substantially secured against actuation by incoming shredded material or incoming parts and preferably only by an expanding force in the region of the inlet path ( 6 ) and / or a retraction movement of the parts can be actuated, for which in particular at least one pressure surface ( 42 ), a pressure edge ( 43 ) and / or a friction surface ( 11 ) lying transversely to the central plane ( 13 ) of the inflow path ( 6 ) is provided. 9. Document shredder according to one of the preceding claims, characterized in that at least one actuating member ( 21 ) of the securing means ( 20 ) is pivotable for performing a working movement, in particular about an axis ( 48 ), which is at a distance from the insertion opening ( 8 ), approximately horizontally, approximately in the width direction of the insertion opening ( 8 ), approximately in the plane of the insertion opening ( 8 ) associated with the outer boundary ( 15 ) of the document shredder ( 1 ), above the pulverization plant ( 4 ) and / or at a distance behind at least a surface of the actuating member ( 21 ) to be taken along by the comminuted material, the distance from the insertion opening ( 8 ) preferably being at least in the order of magnitude of the inlet path ( 6 ) measured in the distance direction. 10. Document shredder according to one of the preceding claims, characterized in that at least a part of at least one actuator ( 21 ) in cross section surrounds a cavity, in particular is designed as a hollow box profile, which preferably has a wall ( 22 ) of the inlet path ( 6 ) forms and / or is arranged hanging in the operating position, in particular a guide surface ( 11 ) at a free end passing over a boundary edge ( 43 ) into a transverse pressure surface ( 42 ). 11. Document shredder according to one of the preceding claims, characterized in that at least part of at least one actuating member ( 21 ) forms an outer surface, in particular an upper cover surface of the document shredder ( 1 ), and is preferably designed as a housing flap ( 45 ) which provides access closes to at least one housing space ( 39 ) acted upon by the comminution material. 12. Document shredder according to one of the preceding claims, characterized in that a one side, in particular a broad side, forming boundary ( 22 ) of the inlet path ( 6 ) substantially independent of at least one other, in the same longitudinal region lie the boundary of the inlet path ( 6 ) and / or completely movable from the operating position into a position at a distance from the inlet path ( 6 ) and is preferably formed by a housing flap ( 45 ) which is in particular at least partially approximately parallel to the plane of the insertion opening ( 8 ). 13. Document shredder according to one of the preceding claims, characterized in that the movable loading limit ( 22 ) extends beyond an outer limit ( 15 ) of the document shredder ( 1 ) and in particular the housing flap ( 45 ) is adjacent to the associated outer surface and that preferably to move the boundary ( 22 ) completely out of the outer housing ( 3 ) of the document destroyer ( 1 ) and / or on this outer housing ( 3 ). 14. Document shredder according to one of the preceding claims, characterized in that on the feed side ( 9 ) of the comminution plant ( 4 ), compared to at least part of the feed path ( 6 ), essentially separable storage space ( 39 ) for comminution material is seen before, which, in particular, is connected to the inlet side ( 9 ) essentially in every operating state via a connecting track for the comminuted material and preferably leads the comminuted material in a self-conducting manner into the storage space ( 39 ) from an outer part of the inlet path ( 6 ) via a backwards running shredding unit ( 4 ) Turnout ( 73 ) is separated. 15. Document shredder according to claim 14, characterized in that a guide surface of the switch ( 73 ) is formed by a pressure surface ( 42 ) of the securing means ( 20 ), which preferably opens at an acute angle to the shredding unit ( 4 ) of a rut cal ( 24 ) for the comminuted material, which is arranged in particular on the base body ( 2 ) and / or limits the passage ( 10 ). 16. Document shredder according to claim 14 or 15, characterized in that the storage space ( 39 ) is adjacent to the inlet path ( 6 ) and / or essentially only above the shredding unit ( 4 ), in particular from the shredding unit ( 4 ) forming a storage space floor up to an outer boundary ( 15 ) of the document shredder ( 1 ) and preferably has a storage volume at least approximately in the order of magnitude of the inner volume of the inlet path ( 6 ). 17. Document shredder according to one of claims 14 to 16, characterized in that the storage space ( 39 ) we at least from a part of the conveying path ( 5 ) is separated by an especially movable separating body ( 40 ), which is preferably freely between two opposite one another Limits ( 14 ) of the inlet path ( 6 ) and the storage space ( 39 ) protrude and / or the switch ( 37 ) forms. 18. Document shredder according to one of claims 14 to 17, characterized in that the storage space ( 39 ) from the outside of an outer housing ( 3 ) of the document shredder ( 1 ) is accessible, in particular in the region of an access opening ( 47 ) with a housing flap ( 45 ) can be closed, which carries the separating body ( 40 ) lying at an angle to it. 19. Document shredder according to one of the preceding claims, characterized in that the shredding unit ( 4 ) through an outer housing ( 3 ) of the document shredder ( 1 ) can be seen at least on the inlet side ( 9 ) essentially over the full working width, in particular manually is accessible, a maintenance shaft ( 72 ), which is formed by the inlet path ( 6 ) and / or at least one storage space ( 39 ), is preferably at least partially closable with a housing flap ( 45 ) and / or boundaries ( 14 , 23 , 24 , 41 ) which essentially close to the shredding unit ( 4 ), at least in relation to an engine compartment ( 71 ). 20. Document shredder according to one of the preceding claims, characterized in that at least one actuating member ( 21 ) of the securing means ( 20 ) acts positively on a switch ( 56 ) in the sense of switching off the shredding unit ( 4 ), the actuating member ( 21 ) preferably with a shift finger ( 55 ) positively engages in a switch-off position spring-loaded switching element ( 50 ) which forms a switching cam ( 60 ) for actuating the switch ( 56 ).