EP0251060A2 - Garden waste comminuting device - Google Patents

Abstract

In the context of a device for chopping up garden waste or the like of the type comprising a housing mounted on support legs and having at least one ejector opening, a preferably vertical charging passage mounted on the housing, a carrier disk adapted to rotate in the housing about an upright axis and mounted on the shaft of a motor attached to the housing so that the disk shuts off the housing at a lower end thereof and at least one generally radially aligned knife on the disk which is placed on a trailing edge, i.e. the edge which is to the rear in the direction of rotation, of a slot in the disk, the knife being arranged to cooperate with a stationary support bolster in the form of a circumferential part, extending transversely in relation to the direction of rotation, of the charging passage under which the knife moves, the invention seeks to achieve an improved functional performance and a compact construction insofar as in at least a lower part thereof the charging passage has a cross section which extends from the edge part of the carrying disk towards its center provided with a deflector mounted thereon and which is provided with at least one circumferential inward protrusion, whose trailing side respectively forms a stationary support bolster for supporting the waste being chopped, and furthermore the motor is carried on the floor part, overlapped by the carrier disk, of a housing chamber, which at its circumference has a number of ejection openings equal to the number of inward protrusions, whose axis is in a projection generally perpendicular to the projection of the side, which forms the respective associated stationary support bolster, of the corresponding circumferential inward protrusion of the charging chamber.

Description

The invention relates to a device for chopping garden waste or the like, with a housing received on legs, provided with at least one ejection opening, on which a loading shaft with preferably vertical axis is placed, which rotates in the housing with a vertical axis, on the shaft of a housing-fixed motor is accommodated support disk is covered down, on which at least one approximately radially extending knife, which is arranged in the region of the rear edge in the direction of rotation of an associated passage slot, is accommodated, which knife with a stationary counter-holder in the form of a circumferential region running transversely to the direction of rotation of the one which it drives under Loading chute cooperates.

A device of this type is known from DE-B 33 24 274. In this known arrangement, the motor is placed on the housing from above. The feed chute, which is also attached from above, is accordingly located radially outside the centrally arranged motor and has an approximately kidney-shaped cross section. Arrangements of this type require a certain size to ensure a sufficiently large cross-section of the feed chute. In the case of a reduction in the size with a corresponding reduction in the cross section of the loading chute, however, its cross section would be too small. The consequence of this would be a high risk of clogging, particularly when shredding soft sheet material etc. The known arrangement is therefore not suitable for small appliances. On the other hand, there is an increased need for small devices.

Proceeding from this, it is therefore the object of the present invention to improve a device of the generic type with simple and inexpensive means in such a way that even in the case of comparatively small sizes, a relatively large mouth cross section of the loading shaft and thus trouble-free operation can be achieved.

This object is achieved in that the loading chute has a cross section, at least in a lower region, which extends from the edge region of the carrier disc over the one with an attached one Deflector provided center and is provided with at least one circumferential indentation, the rear flank of which forms a stationary counter-holder in the direction of rotation, and that the motor is suspended from the bottom of a housing chamber receiving the carrier disk, which is in the region of its periphery with one of the number the circumferential indentations of the loading chute are provided with a corresponding number of ejection openings, the axis of which in the projection is approximately perpendicular to the projection of the flank of the associated circumferential indentation of the loading chute forming the respectively assigned stationary counter-holder.

Due to the fact that the motor is located below the carrier plate and this is aligned horizontally, the carrier plate is available with practically its entire surface for covering the mouth cross section of the loading shaft. This can therefore advantageously extend beyond the center of the pane, ie also encompass it, so that there is a comparatively large cross-section of the mouth of the loading chute. The deflecting body placed on the center of the carrier disk encompassed by the loading shaft ensures that there is still no dead space. Another advantage of the measures according to the invention can be seen in the fact that the loading shaft remains as a result of the inventive design of the stationary counter-holder in the form of a shaft-side circumferential indentation without any other internals. The loading shaft can therefore advantageously have a constant cross-section over its entire length, which is a particularly simple one Manufacturing enables. The measures according to the invention thus advantageously enable a small construction without fear of negative consequences for the functional reliability and freedom from faults.

In an advantageous further development of the superordinate measures, the loading shaft can consist of two half-shell-shaped halves which are fastened to one another with their longitudinal edges. This measure enables the use of simple pressed parts to form the loading shaft.

A further advantageous measure can consist in that each flank of the loading chute, which forms a stationary counter-holder, is pivoted with its radially outer end counter to the direction of rotation and with its radially inner end in the direction of rotation with respect to a radial jet perpendicular to the ejection axis. In the case of a radial or approximately radial knife arrangement, this results in a scissor cut starting radially on the outside. The material to be shredded is automatically brought inwards in an advantageous manner. At the same time, this measure ensures a favorable ejection direction both for the material cut in the area of the outer knife end and for the material cut in the area of the inner knife end.

In a further development of the superordinate measures, the loading shaft can, in the case of an indentation, correspond to an approximately circular section with a center of the circle concentric to the axis of the carrier disk and a chord bent radially inwards in the middle Have cross-section. This measure results in a very large utilization of the available area of the carrier disk and thus, even in the case of a very small size, a comparatively large cross section of the loading shaft.

Another advantageous development of the superordinate measures can consist in the fact that the loading shaft has a prismatic cross section concentric to the disc axis with several, preferably two, recesses offset by 180 ° and that the housing is accordingly provided with several outlet openings. This results in a number of interfaces corresponding to the number of indentations, each of which is assigned an ejection opening. Here, the throughput of chopped material can therefore be distributed over several ejection openings, which has an advantageous effect on avoiding the risk of clogging.

Another expedient measure can consist in that each knife rests with its inner edge on the deflector body, the largest diameter of which corresponds to twice the distance of the radially inner edge of the indentation or indentations from the axis of the carrier disk. This results in reliable comminution of the material thrown off the deflector body.

In a further expedient embodiment of the superordinate measures, the deflecting body can be designed as a molded part with at least one circumferential spike protruding into the loading shaft and a central bore through which a screw connecting the carrier disk to the motor shaft extends. This results in a simple fastening of the deflecting body, which can advantageously protrude into the latter due to the cross section of the loading shaft which extends beyond the center of the carrier disk, which ensures a particularly good deflecting function. In a further perfection, the deflector body can be designed as a crown-shaped molded part having a plurality of circumferential teeth. In this way, unbalance phenomena can be prevented.

The carrier disk can advantageously be equipped with only one, preferably radially arranged knife. This knife and the slot assigned to it can be brought close to the center of the carrier disk without endangering the stability of the disk. This results in a very small dimensioning of the deflector body. At the same time, these measures ensure the use of a particularly lightly dimensioned motor and thus overall a particularly light and inexpensive construction.

According to another embodiment, two knives which are offset relative to two radial beams offset by 180 ° relative to one another can be provided in the direction of rotation in the forward direction. Here, the two knives and the slots assigned to them can be shortened compared to a version with a knife. The length of the stationary counterholder is also shortened accordingly. This training therefore comes primarily for a version with a two stationary one Counter-forming recesses having a prismatic feed chute cross-section into question, since the narrowest cross-section of the prismatic feed chute can also be comparatively large due to the comparatively short knife length.

In a further development of the superordinate measures, a downward-sloping discharge chute can be attached to each discharge opening, which preferably has an inclined downward sloping passage surface. On the one hand, these measures enable the ejection flow to be controlled and, at the same time, prevent access to the carrier disk which is covered with knives.

Further expedient training and advantageous developments of the higher-level measures result from the following description of some exemplary embodiments with reference to the drawing in conjunction with the remaining subclaims.

• Figur 1 einen Längsschnitt durch eine erste Ausfüh­rung eines erfindungsgemäßen Häckslers mit einem Auswurf und einem Messer,
• Figur 2 eine Draufsicht auf die Anordnung gemäß Figur 1 bei abgenommenem Trichter,
• Figur 3 einen Längsschnitt durch eine zweite Ausfüh­rung eines erfindungsgemäßen Häckslers mit zwei Auswurföffnungen und zwei Messern,
• Figur 4 eine Draufsicht auf die Anordnung gemäß Figur 3 bei abgenommenem Trichter und
• Figur 5 eine vergrößerte Darstellung einer bevorzug­ten Ausführung des auf die Trägerscheibe aufgesetzten Abweiskörpers.

The drawing shows:

• 1 shows a longitudinal section through a first embodiment of a chopper according to the invention with an ejection and a knife,
• FIG. 2 shows a top view of the arrangement according to FIG. 1 with the funnel removed,
• FIG. 3 shows a longitudinal section through a second embodiment of a chopper according to the invention with two discharge openings and two knives,
• Figure 4 is a plan view of the arrangement of Figure 3 with the funnel and removed
• Figure 5 is an enlarged view of a preferred embodiment of the deflecting body placed on the carrier disc.

The chopper on which FIGS. 1 and 2 are based has a housing which consists of a bowl-shaped base 1 with a flanged cover 2 and is accommodated on three legs 3. These rest with their upper end on the flange 4 of the lower housing part and can simply be held by the flange connection screws 5. The housing 1 consisting of bottom 1 with a flanged lid contains a chamber 6, in which a carrier disk 7 for a knife 8 is arranged, which is fastened by screws to the rear edge of an assigned passage slot 9 in the direction of rotation, overlapping on the carrier disk 7. The carrier disk 7 is received with a vertical axis on a shaft 10 of a motor 11 in the form of an electric motor suspended on the outside of the bottom 1 and arranged through the bottom 1, over which the carrier disk 7 passes. The carrier disk 7 can be centered by a shaft journal engaging in a central bore and fastened on the shaft 20 by a retaining screw 12 which can be screwed into a threaded blind hole in the shaft journal.

The cover 2 is provided with a loading opening 13, which is gripped under by the carrier disk 7 and into which a loading shaft 14 has the same cross-section lower end is inserted. In the exemplary embodiment shown, the tubular loading shaft 14 has a cross section that is constant over its entire length and is arranged with an axis perpendicular to the plane of the carrier plate 7. A funnel 15 is placed on the upper end of the feed chute 14 and prevents free access to the carrier disk 7. The loading opening 13 and, accordingly, also the loading shaft 14 have a cross-section which extends from the edge region of the carrier disk 7 beyond its center, ie the center of the carrier disk 7, and thus a large cross section, which is only slightly reduced compared to the disk surface. The surface of the carrier disk 7 is, as can best be seen from FIG. 2, largely used to close the feed chute 14.

en­wirkenden Messers 8 entsprechend radiale Erstreckung aufweist. Die den stationären Gegenhalter 12 bildende hin­tere Flanke der Einbuchtung 16 kann bezüglich der Schei­benachse radialen Verlauf aufweisen. Im dargestellten Ausführungsbeispiel ist die den Gegenhalter 10 bildende hintere Flanke der Einbuchtung 16 gegenüber einem Radial­strahl um etwa 3° bis 5° verschwenkt, wobei das radial innere Ende des Gegenhalters 7 in Drehrichtung der Träger­scheibe 7 und das radial äußere Ende entgegen der Dreh­richtung verschwenkt sind. Hierdurch ergibt sich bei etwa radialer Messeranordnung ein von radial außen nach innen verlaufender Scherenschnitt, was sich vorteilhaft auf die Beanspruchung des Motors 11 auswirkt. Gleichzeitig ergibt sich hierdurch eine günstige Auswurfrichtung über der ganzen Messerlänge.In order to form a stationary counter-holder, which interacts with the knife 8 arranged on the rotating carrier disk 7, for the material thrown into the feed shaft 14, the feed opening 13 and the feed shaft 14 are provided with a radial circumferential indentation 16, on the rear flank of which in the direction of rotation that comminuting material comes to rest as a result of the rotational movement of the carrier disk 7 and the counterhold 17, which is accordingly stationary, acts. The feed shaft 14 arranged with a vertical axis can be designed as a pipe section. In the exemplary embodiment shown, the feed chute 14, as can best be seen from FIG. 2, is composed of two half-shells 14a and 14b designed as moldings, of which one half-shell 14a has a semi-circular configuration and the other half-shell 14b has an approximately w-shaped cross-sectional configuration to form the indentation 16. The two shells 14a, 14b are connected to one another in the region of their longitudinal edges, for example by welding. This practically results in a shaft cross section in the form of a circular section extending beyond a semicircle with a chord bent radially inwards in the middle to form the indentation 7. The feed shaft 14 is, as can best be seen from FIG. 2, placed on the cover 2 of the housing in such a way that the center of the circle is opaque to the axis of the carrier disk 7. The depth of the indentation 16 is chosen so that the stationary counter-holder 17 thus formed is at least the length of the hereby

acting knife 8 has a corresponding radial extent. The rear flank of the indentation 16 forming the stationary counter-holder 12 can have a radial course with respect to the disk axis. In the exemplary embodiment shown, the rear flank of the recess 16 forming the counter-holder 10 is pivoted by about 3 ° to 5 ° with respect to a radial beam, the radially inner end of the counter-holder 7 being pivoted in the direction of rotation of the carrier disk 7 and the radially outer end counter to the direction of rotation. In the case of an approximately radial knife arrangement, this results in a scissor cut extending radially inwards, which has an advantageous effect on the stress on the motor 11. At the same time, this results in a favorable ejection direction over the entire length of the knife.

The chopped material passes through the passage slot 9 and is through to the underside of the carrier plate be 7 attached wing 18 ejected via a stationary ejector 17 associated with the ejection opening 19 of the housing. The ejection opening 19 is arranged such that a deflection-free ejection takes place in the plan view. For this purpose, the arrangement is such that, in the top view, the solder on the passage surface of the ejection opening 19 is approximately perpendicular to the rear flank of the indentation 16 forming the stationary counter-holder 17. The ejection opening 19 is formed by a recess in the trough-shaped bottom 1 arranged with an inclined surface. The bottom 1 and the cover 2 extending over it can be provided in the region of the ejection opening 19 with a downward deflection of the material causing deflection plates. In the exemplary embodiment shown, the base 1 and the cover 2 are provided with edge claws 20 delimiting the ejection opening 19, to which an ejection chute 21 is attached in such a way that its axis is inclined downwards outwards. With the help of the discharge chute 21, the discharge jet can be directed into a collecting container of the type indicated at 22.

In order to avoid dead space in the area of the center of the carrier disk 7, a centrally arranged deflecting body 23 is placed on the latter. This can easily be held by means of the screw 12 and is provided with a central hole for this purpose. The deflector 23 can be designed as an L-bw. Be U-shaped bracket. In the exemplary embodiment shown, the deflector body 23, as can best be seen from FIG. 5, is designed as a crown-shaped molded part with a plurality of tines 24 molded onto the circumference. These provide so much Unrest in the area of the disc center that the material entered into the loading shaft 14 is reliably thrown radially outward into the area of the knife 8. The radially inner edge of the knife 8 arranged here lies against an adjacent flank of the deflecting body 23. The depth of the indentation 16 is chosen so that the largest diameter of the deflector 23 corresponds to twice the distance of the inner buckling edge from the center of the carrier disk 7, so that the material input into the loading shaft 14 is reliably comminuted.

The basic structure of the arrangement according to FIGS. 3 and 4 is identical to the structure of FIGS. 1 and 2. The same reference numerals are therefore used for the same parts for the sake of simplicity. The embodiment according to FIGS. 3 and 4 differs from the embodiment according to FIGS. 1 and 2 described above in that the loading chute 14 has two diametrically opposed indentations 16 and the housing 2 has diametrically opposed ejection openings 19 assigned to these two indentations 16 and that Carrier disc 7 is occupied by two diametrically opposed knives 8.

The chopper on which FIGS. 3 and 4 are based also has a housing consisting of a base 1 and a flanged-on cover 2 with a chamber 6 for receiving a support disk which rotates about a vertical axis and which is received on the shaft 10 of a motor 1 attached to the base 1 and which extends through the base 1 7. This is with a centrally located, crown-shaped deflector Body 23 of the type shown in Figure 5 is provided, which rests with mutually opposite flanks on the inner ends of the two opposing knives 8, each of which overlaps an assigned passage slot 9. The carrier disk 7 accordingly also has two passage slots 9. The knives 8 can be arranged exactly radially. In the exemplary embodiment shown, the two knives 8 are slightly displaced forward in the direction of rotation of the carrier disk 7 in relation to two radial jets offset by 180 ° with respect to one another. The same also applies to the passage slots 9, which can have an advantageous effect on the stability of the carrier disk 7.

The loading shaft 14 here has a prismatic cross section with the two indentations 16 and is placed on the cover 2 with a perpendicular axis concentric with the axis of the carrier disk 7. The feed chute 14, which is prismatic in cross section, can be composed of two molded articles having a W-shaped configuration. The smallest clear width of the prismatic loading chute 14 corresponds approximately to the largest diameter of the deflecting body 23 placed on the carrier disk 7. This diameter is chosen so that the clear width of the feed chute 14 is also so large in the area of the two indentations 16 that No constipation. The length of the knives 8 and the stationary counterholders 17 associated therewith in the region of the indentations 16 is somewhat shortened compared to the design with only one knife. The same applies to the passage slots 9, which has an advantageous effect on the stability of the carrier disk 7. At the same time, this also has an advantageous effect on the power requirement and thus the dimensioning of the motor 11.

Each indentation 16, the rear edge of which, in the direction of rotation, forms a stationary counter-holder 17 which interacts with the rotating knives 8, is assigned an ejection opening 19 which is formed by a recess in the rim of the trough-shaped base 1 which has a downwardly inclined passage surface. Here too, as can best be seen from FIG. 4, the arrangement can be such that, in the top view, the solder on the passage surface of the ejection opening 19 is perpendicular to the flank of the adjacent indentation 16 forming the respectively assigned counter-holder. An ejection chute 21 which is inclined downward is placed on each ejection opening 19 in the same way as in the embodiment according to FIGS. 1 and 2. The use of a plurality of ejection openings 19 results in an increase in the total ejection area, which has an advantageous effect on the prevention of blockages on the ejection side.

Claims (10)

1. Device for chopping garden waste or the like, with a on legs (3) received, with at least one ejection opening (19) provided housing, on which a loading chute (14) is placed with a preferably vertical axis, which by a vertical in the housing Axially rotating carrier disk (7) accommodated on the shaft (10) of a motor (11) fixed to the housing is covered downwards, on which at least one approximately radially extending knife (9) arranged in the area of the rear edge in the direction of rotation of an assigned passage slot (9) 8) is accommodated, which interacts with a stationary counter-holder (17) in the form of a circumferential region running transversely to the direction of rotation of the feed chute (14) which it travels under, characterized in that the feed chute (14) has a cross section, at least in its lower region, which from the edge area of the carrier disc (7) over which with an attached Abweisk body (23) extends beyond and is provided with at least one circumferential indentation (16), the rear flank of which forms a stationary counter-holder (17) in the direction of rotation, and that the motor (11) on the carrier disc (7) overlapped bottom (1) of a housing chamber (6) receiving the carrier disc (7) is suspended, which in the area of its periphery is provided with a number of ejection openings (19) corresponding to the number of circumferential indentations (16) of the loading chute (14) whose axis in the projection is approximately perpendicular to the projection of the flank of the adjacent circumferential indentation (16) of the loading chute (14) forming the respectively assigned stationary counter-holder (17). 2. Device according to one of the preceding claims, characterized in that the cross section of the at its upper end preferably a funnel (15) carrying, arranged with vertical axis charging chute (14) is constant over its entire length and that the charging chute is preferably made of two half-shell-shaped Halves (14a, 14b), which are fastened together with their longitudinal edges. 3. Device according to one of the preceding claims, characterized in that each flank of the loading chute (14) forming a stationary counter-holder (17) is pivoted with respect to a radial jet perpendicular to the ejection axis with its radially outer end counter to the direction of rotation and with its radially inner end in the direction of rotation is. 4. Device according to one of the preceding claims, characterized in that the loading shaft (14) in the case of an indentation (16) has an approximately circular section with the axis of the carrier disk (7) concentric circle center and in the center radially inwardly bent tendon has a corresponding cross-section. 5. Device according to one of the preceding claims 1 to 4, characterized in that the loading shaft (14) has a prismatic cross-section concentric to the disc axis with several, preferably two, 180 ° offset recesses (16) and that these have a plurality of outlet openings (19 ) assigned. 6. Device according to one of the preceding claims, characterized in that each knife rests with its inner edge on the preferably protruding into the loading chute deflector (23), the largest diameter of which is twice the distance of the radially inner edge of the indentation or indentations (16) corresponds to the axis of the carrier disc (7). 7. Device according to one of the preceding claims, characterized in that the deflecting body (23) is designed as a molded part with at least one circumferential prong (24) projecting into the loading shaft (14), preferably a plurality of crown prongs (24) arranged in a crown and a central bore, through which a screw (12) which connects the carrier disc (7) to the motor shaft (11) extends. 8. Device according to one of the preceding claims, characterized in that the carrier disc (7) with only one, preferably radially arranged knife (8) is occupied. 9. Device according to one of the preceding claims 1 to 8, characterized in that two mutually opposite knives (8) are provided, which are preferably displaced in parallel in the direction of rotation relative to two radial beams offset by 180 °. 10. Device according to one of the preceding claims, characterized in that a downwardly inclined chute (21) is attached to each ejection opening (19), which preferably has an inclined downward passage surface, which is preferably arranged on opposite, the associated ejection opening (19). limiting claws (20) of a preferably shell-shaped housing base (1) and a preferably flat housing cover (2), which is flanged onto the housing base (1) and carries the loading shaft (14), and that the supporting legs (3) in the region of the flange (4 ) from the housing base (1) and cover (2) are attached to the housing.

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