SE517351C2 - Cutting Machine - Google Patents

Abstract

A disintegration machine comprises a casing (1) and at least one element (6, 7, 8) rotatable arranged in the casing for disintegration of material. The casing comprises at least one wall portion (11) extending along the rotatable element. This wall portion is at least partially formed by a device (27) movably arranged in relation to the rest of the casing (1). This device is movable between a first position, in which the device is located in a normal operational position relative to the rotatable element, and a second position, in which the device is moved away from the rotatable element.

Description

fina »10 15 20 25 30 35 I OQO I I II 00 OO III! I I I I I U U Û 5,7 35 ~ - 2 recurring reversal of the direction of rotation so that the material in question is successively forced down through the machine during decomposition in it. However, this can give rise to considerable damage to parts of the machine as the passage possibilities down through the machine are always constant.

SUMMARY OF THE INVENTION The object of this invention is to provide a machine designed so that it can be adapted in relation to prevailing operating conditions. In particular, this means that the machine must be able to adapt in overload situations in order to facilitate the passage of material through the machine or to otherwise make it easier for the machine to free itself from the material present therein.

According to the invention, this object is achieved in that the wall portion is at least partially formed by a device arranged otherwise movably arranged and that this device is movable between a first position, in which the device is in a normal functional position relative to the rotatable element, and a second position, in which the device is moved away from the rotatable element.

Already some movement of the movable device away from the rotatable element facilitates passage through the machine of difficult-to-disintegrate material. According to a preferred embodiment of the invention, however, the movable device in its second position is intended to mean such an opening of the casing that obstructing or difficult-to-disintegrate material can be discharged from the machine through the opening exposed by means of the movable device.

According to a preferred embodiment, a counter-cutting device is arranged on the movable device, arranged to cooperate with the rotatable element for disintegration of material. As a result, the counter-cutting device will accompany the movable device in its movement between the two positions and thereby the rotatable element is approached and removed from it, respectively.

I I I I I I 0 I O O 0 v! According to another embodiment, it is preferred that a locating device is resilient to allow the moving device to be moved away from its first position when forces exerted on the device exceed a predetermined value. It is thus achieved that impermissible forces will not be exerted on the movable device and the counter-cutting device possibly arranged thereon.

According to a particularly preferred embodiment, the movable device comprises at least two movable parts. It is preferred that the two parts engage each other by means of engagement means at least when they are in the first position.

To the extent that the movable device is designed so that in its position moved away from the rotatable element means a significant opening laterally relative to the axis of rotation of the rotatable element, it is possible to design the machine so that the rotatable element can be removed therefrom by one of the movable device in its second position formed opening. Further features and advantages of the machine according to the invention appear from the claims and from the following description.

BRIEF DESCRIPTION OF THE DRAWINGS Referring to the accompanying drawings, a more detailed description of exemplary embodiments of the invention follows. In the drawings: Fig. 1 is a view of the machine according to the invention seen from above, Fig. 2 is a view similar to Fig. 1 but with two upper first rotatable disintegration elements removed so that a second, Fig. 3 Fig. 3 Figs. .4 Fig. 5 Fig. 6 Fig. 7 Fig. 8 Fig. 9 Fig. 10 in 517 351 4 below which the rotatable disintegration element existing is clearly visible (the latter element is not drawn in Fig. 1), a partly cut and partly schematic view in a section across the axes of rotation of the rotatably arranged elements, a view similar to Fig. 3 but showing parts of a movable device in a slightly different position, a view similar to Figs. 3 and 4 but illustrating parts of the movable device in an opening position, an enlarged view view of a detail of Fig. 4, a top view of the rotatable element shown on the right in Fig. 1 and its coordination with a part included in the movable device, a view of the latter part viewed in isolation according to the arrow Vlll-Vlll, a view similar fig 3 of a slightly modified design, and a view of yet another variant.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS Embodiment according to Figs. 1-8 The machine according to the invention is particularly suitable for coarse or unsorted goods of the most diverse kinds but can also be used for other disassembly operations.

O O I I I I I I I I I I 'En! '.': 33 ":. ', ..: ...:. 5 The machine has a casing generally designated 1. This has at the top (fig. 3) an opening 2 for the supply of material to be dismantled. At the bottom the casing has a opening 3 for discharge of disintegrated material, otherwise the housing 1 has end walls and side walls collectively designated 4 and 5, respectively. In the housing, in the example, three elements 6, 7, 8 are rotatably arranged.

It is pointed out that the machine also includes a frame for supporting the elements. This frame and the housing 1 are suitably integrated. For example, as indicated in Fig. 3, the frame can have a frame built up in a conventional manner by beams 9, wherein covering beams are arranged at these beams, namely end wall portions 10 and in Fig. 3 generally designated side wall portions, 11 of which only one can be seen. in Fig. 3.

The described frame together with the wall portions consequently form the housing 1.

The three rotatable elements 6, 7, 8 are thought to have the character of rollers or shafts and are rotatably mounted at their ends in the ends 4 and rotatably driven by suitable motors, of which those for the elements 6, 7 are shown in Fig. 1. and there are denoted 12 and 13, respectively. The rotatable elements 6, 7, 8 could, for example, be arranged to function with each other for disintegration purposes in the manner which is characteristic of the inventive idea according to European Patent No. 81 539. However, it is pointed out that this is not for the present invention indispensable. Thus, for example, only the two upper elements 6, 7 could function according to the principle of the European patent just mentioned, while the remaining element 8 could be of a different configuration or all rotatable elements could be designed to function according to other decomposition principles. In other words, this means that the rotatable elements 6-8 do not necessarily have machining means in the form of threads or the like, but they could instead have other machining means such as blows, discs, etc.; In the following, the rotatable elements 6, 8 will be described as having the character of rollers.

It is preferred that the two upper rollers 6, 7 form a disintegration zone 14 between each other and this preferably by causing the rollers to rotate so that their peripheral portions in the machining zone 14 move downwards. Current directions of rotation of the rollers are thus indicated by the arrows 15 and 16, respectively, in Fig. 3.

The additional roller 8 is in the example arranged in the area below the disintegration zone 14 and more specifically so that the roller 8 with each of the two upper rollers 6, 7 forms a common disintegration zone 17 and 18, respectively. The roller 8 is rotatable in opposite directions indicated through arrows 19, 20.

When applying the function according to European patent 81 539, the two upper rollers 6, 7 are designed to subject the existing material there in the disintegration zone 14 for action in substantially opposite directions along the axes of rotation of the rollers 6, 7. For this purpose, the rollers 6, 7 have threads 21, 22 arranged on central cores. These threads 21, 22 are leaf-shaped and, in order to achieve a good disintegration function, they are inclined in opposite directions. the directions of rotation and thread directions of the rollers 6, 7 are selected so that the screw threads 21, 22 will tend to affect material present in the disintegration zone 14 in opposite directions. In the example, the rollers 6, 7 are driven with opposite directions of rotation while the threads 21 and 22 on the rollers have the same thread direction. However, other variants are well applicable. For example, the rollers could be driven in the same direction of rotation but with differential speeds, still with the same thread direction on the threads 21, 22. In the example, the lower roller 8 is also designed to function in accordance with the principle of European Patent No. 81 539. 9 II wi! One! 'Hz: Izznz. A:: nz 'I 7 Thus, the roller 8 also has a core and threads 22, 23 arranged thereon. The threads here consist of two different types with markedly different pitch. When rotating the roller 8 in any of its directions indicated by the arrows 19 and 20, in particular the thread designated by 24 will tend to affect material along the roller 8 in either direction depending on the direction of rotation. The same applies to the thread designated by 23, although due to its very large pitch it gives rise to a relatively small axial force component on the material during decomposition. Upon rotation of the roller 8 in the direction of the arrow 20, the roller 8 will cooperate for disintegration in the zone 18 between itself and the roller designated by 7 in that the threads on the rollers 7 and 8 at said directions of rotation (arrows 20 and 16) will tend to exposing material in the disintegration zone 18 during disintegration to forces in opposite directions along the rollers. When reversing the direction of rotation of the roller 8 to be according to the arrow 19, a corresponding function occurs in the disintegration zone 17. It is pointed out that at opposite ends of the rollers 6, 7, short relative to the threads 21, 22 on the rollers are otherwise opposite. thread sections 25 and 26, respectively. These thread sections 25, 26 have the purpose of avoiding congestion of material at the opposite ends of the rollers 6, 7 as a consequence of the different feed directions the threads 21, 22 exert on the material during decomposition. In the following, with reference to Fig. 3, among others, the design at one wall portion 11 shown in Fig. 3 will be described. It is pointed out, however, that on the other side of the machine there are mirror-inverted but otherwise similar constructions so that the machine has a substantially mirror-symmetrical design with respect to a vertical central plane P1 extending through the machine in parallelism with the axes of rotation of the rollers. ninth grade; The wall portion 11 shown in Fig. 3 is at least partially formed by a device otherwise generally movably arranged 27. This device 27 is movable between a first load-bearing device 27. as shown in Fig. 3 and in which the device is in a normal operating position relative to the rollers 7, 8, and a second position emerging from Fig. 5, in which the device 27 is moved away from the rollers 7, 8.

The movable device 27 thus has a wall-like character in the sense that the device functions for limiting laterally of an interior space present in the housing 1, in which decomposition is intended to take place and in which the rollers 6-8 are arranged.

Arranged on the movable device 27 is a counter-cutting device, generally designated 28, arranged to cooperate with the roller 8 for disintegrating material. As can be seen in comparison with Fig. 5, the counter-cutting device 28 is arranged to accompany the device 27 in its movement to the position illustrated in Fig. 5 and is thereby removed from the roller 8.

Fig. 4 illustrates how the movable device 27 is slightly adjusted relative to the position according to Fig. 3 so that the counter-cutting device 28 is removed from the periphery of the roller 8. This periphery is formed for the outermost portions of the thread formations 23, 24.

The movable device 27 is connected to a device generally designated 29 for locating the device in its first position according to Fig. 3. The locating device 29 is advantageously resilient to allow the movable device 27 to be moved away from its first position when on the forces exerted by the device exceed a predetermined value. Expressed in other words, this means that when the roller 8 and possibly also the roller 7 is driven so that (arrows 20 and 16) material is pressed against the area of the counter-cutting device 28, in the event of force on the counter-cutting device 28 beyond certain value the counter-cutting device 28 and thus the whole the arrangement 27 to be moved away to, for example, the position according to Fig. 4 so 9 Û OI IQ man; 9 15 20 25 30 I O O I OO I I 517 351 IQ IOI 9 that non-destructive forces are applied to the device 27 and the counter-cutting device 28. In case of excessive forces, even opening of the device in the manner indicated in Fig. 5 may occur.

It is preferred that the locating device 29 comprises at least one force generating member. This may, for example, have the character of a length-variable member acting between a fixed point 30 relative to the housing 1 and a point 31 on the movable device 27. An obvious example of a force-developing member is a piston-cylinder mechanism capable of additionally functioning resiliently as just described. way.

The locating device 29 is arranged to move the movable device 27 to a position in which the device 27 is removed from the rollers 7, 8 relative to the first position of the device 27.

The movable device 27 comprises in the example two movable parts 32, 33. The two parts 32, 33 are in engagement with each other by means of engaging means 34, 35 at least when the parts are in the first position according to Fig. 3.

The counter-cutting device 28 is arranged on one of the parts 32, 33. In the example, the counter-cutting device 28 is arranged on the part designated by 33.

The locating device 29 acts on one of the parts 32, 33 for direct influence of this part, while the remaining part is arranged to be actuated indirectly via the engaging means 34, 35.

In the example, the locating device 29 acts on the part 33, on which also the counter-cutting device 28 is located. This part 33 forms in the example a lower part of the movable device 27 considered in its entirety.

I l O Q I! At least one and preferably both of the parts 32, 33 of the movable device 27 are pivotally movable about axes 36 and 37, respectively. The pivot shaft 36 of the upper part 32 is located at a level above the counter-cutting device 28. The engaging means comprises (compare also with Fig. 5) at least one projection 34 on one of the parts and at least one recess 35, in which the projection is receptive, on the other of the parts. The protrusion / recess 34, 35 involves a chewing engagement between the parts.

Fig. 6 shows somewhat more clearly how the counter-cutting device 28 is constructed, adjustable and attachable. As can be seen, a cutting member 38 is fastened by means of screws to a base part 39. This base part 39 is fastened by means of a bolt relative to a body of the part 33.

The recess 35 is formed between two pieces 41, 42 fastened to the frame of the part 33 by means of screws. The piece 41 supports against a shoulder on the frame of the part 33 and in turn forms support for the base part 39. As indicated in Figs. 3-6, between the base part 39 and the piece 41, spacers are inserted to control the projection of the cutting means 38 from the part 33. As can be seen from Fig. 6, to enable such adjustment, the side displacement is movably received laterally in slots 43. Of course, the fasteners associated with the bolt 40 must here in the form of nuts 44, are loosened before spacers can be applied or removed.

One of the parts has its pivot axis 36 located substantially higher than the pivot axis 37 of the other part 33. When the parts 32, 33 are pivoted to their second position according to Fig. 5, they pivot in opposite directions about their axes so that the engaging means 34, 35 move out of interference with each other. In the example, the locating device 29 will then maintain its engagement with the part 33 carrying the counter-cutting device 28, while the second part 32 must be swung up by other means to the position according to Fig. 5. In this position the counter-cutting device 28 is very conveniently accessible. 000000 -uxna 10 15 20 25 30 35 517 35% ”11 for replacement of cutting means and performance of any other necessary service.

The part 32 could be associated with its own locating device for moving the part 32, in particular to its opened position illustrated in Fig. 5. For example, the shaft 36 could be rigidly connected to the part 32 and connected to any of the said locating device forming a force-developing device for pivoting the part 32. It is pointed out in this context that the part 33 could also be arranged to impart its pivoting movement via the in that case, the shaft 37 rigidly connected to the part 33, which in turn would need to be subjected to action via suitable force-developing means. In Figs. 7 and 8 it is indicated how the part 32 on its side facing the roller 7 is provided with means 45 for forming between it and the roller 7 a further disintegration zone, which will be located at the place indicated in Fig. 3 at 46. it is pointed out that the means 45 are not shown in Fig. 3.

The members 45 in the example consist of projecting ribs which are located with their edges projecting from the part 32 relatively close to the periphery of the roller 7. In the example, the ribs 45 extend in an arcuate configuration in adaptation to the circumference of the roller 7. The ribs 45 are directed substantially perpendicular to the axis of rotation of the roller 7, but they could also be inclined. An essential feature of the members or ribs 45 is that when the threads of the roller 7 travel past them, they must cooperate with the threads for disintegration purposes.

In all the embodiments described, the movable device has 27 wall-forming portions located at a level above the counter-cutting device 28.

When using the described machine, for conventional operation the device 27 is set to the position according to Fig. 3 under the influence of the locating device 29. This position is defined by means of a stop means (not shown) which limits the pivoting movement of the part 33 in the direction of approach. against the roller 8. When then disintegrating, the device 27 can resiliently recede to the extent that the impact on the device 27 would exceed a certain predetermined level. However, the locating device 29 is intended to have a resilient character so that once the force has dropped below said level the device 27 and thus also the counter-cutting device 28 is returned to the normal operating position according to Fig. 3. When there is a need to remove larger unwanted objects from the machine, scrap etc. the part 32 is pivoted by means of the locating device 29 to the opened position according to Fig. 5 and in addition the part 32 is pivoted to its opened position. Thereby, the rollers can, possibly by reversing, be driven so that said object or scrap can be made to be thrown out of the machine. In the opened position according to Fig. 5, service and maintenance personnel can also conveniently access the interior of the machine and, of course, in particular the counter-cutting device 28.

Alternative embodiments according to Figs. 9-10 The variant illustrated in Fig. 9 essentially corresponds to the previously described embodiment, except that here the counter-cutting device 28 is connected to the part 32 instead of to the part 33.

Expressed in other words, the locating device 29 still acts on the part 33 while the counter-cutting device 28 is arranged on the other part. otherwise, the engaging means 34, 35 are reversed here so that the projection 34 is formed on the part 33 while the recess 35 is located on the part 32.

It may also be pointed out here that the engaging means 34, 35 are located between the two parts 32, 33, when these are in their first position according to Fig. 9, substantially in or near a plane P2, which is parallel to the pivot axes 36 of the parts, 37 and coincides with them.

A corresponding circumstance is moreover present in the embodiment illustrated in Figs. 1-8. Finally, Fig. 10 illustrates an embodiment which substantially corresponds to the embodiment according to Figs. 1-8, but as regards the part 33 having the counter-cutting device 28, it is indicated here how the part 33 can rotate completely freely 360 ° if it would not be the case that the roller 8 would be in the way. More specifically, the part 33 is intended here to be set in its pivoting movement by means of the shaft 37, which is under the influence of a suitable force-developing device. Fig. 11 also shows whether here too the part 32 has the previously described members or ribs 45 to form a disintegration zone between it and the roller 7.

POSSIBLE MODIFICATIONS It is a given that the invention is not only limited to the exemplary embodiments discussed above. Thus, a number of modifications can be made within the scope of the basic idea of the invention. For example, it is pointed out that it is not necessary for the movable device 27 to be formed by one or more pivotally movable parts. Instead, it would be possible to design one or more of said parts as movable in a displacement movement which could be straight, arcuate or otherwise adapted to the circumstances. For example, in the case of a movable device formed of two parts 32, 33, one of these parts could be pivotally movable while the other would be translationally or otherwise displaceably movable. Other modifications will also be appreciated by those skilled in the art.

Claims (15)

10 15 20 25 30 517 551 / Å / Patentkrav Disintegration machine of the type comprising a height (1) and at least one element (6, 7, 8) rotatably arranged in the housing for disintegrating material, the housing (1) having at least one along the rotatable element extending wall portion (11), which is at least partially formed by a device (27) which is otherwise movably arranged relative to the housing, which is movable between a first position, in which the device is in a normal operating position relative to the rotatable element ( 6, 7, 8), and a second position, in which the device is moved away from the rotatable element, wherein on the movable device (27) a counter-cutting device (28) is arranged which is arranged to cooperate with the rotatable element ( 8) for disintegration of material and to accompany the device (27) in its movement between the two positions and thereby approach the rotatable element (8) and be removed from it, respectively, characterized in that the movable device comprises at least two movable parts (32 , 33), which are movable relative to each other between a closed position in which they engage with each other via engaging means (34, 35) and an open position in which they do not engage with each other via said engaging means (34, 35) so that in said open position allow ejection of material from the machine, and that the counter-cutting device (28) is arranged on one of the parts. Machine according to claim 1, characterized in that the movable device (27) is connected to a device (29) for locating the device in its first position. Machine according to claim 2, characterized in that the locating device (29) is resilient to allow the device to be moved away from its first position when forces exerted on the device exceed a predetermined value. 10 15 20 25 30 n s I ,, .nu 517 351 fs' Machine according to one of Claims 2 and 3, characterized in that the locating device (29) comprises at least one force-generating member. Machine according to one of Claims 2 to 4, characterized in that the movable device (27) is movable to its second position by means of the locating device (29). Machine according to one of Claims 2 to 5, characterized in that the locating device (29) acts on one of the parts for direct action of this part, while the other part is arranged to be actuated indirectly via the engaging means (34, 35). Machine according to one of the preceding claims, characterized in that the at least two parts (32, 33) in the movable device are pivotally movable about mutually spaced pivot axes (36, 37). Machine according to one of the preceding claims, characterized in that it has at least two rotatably arranged elements (6, 7) and in that the movable device (27) in its first position has portions located relatively close to the circumference of the two elements. Machine according to any one of the preceding claims, characterized in that the engaging means comprise at least one projection (34) on one of the parts, and at least one recess (35), in which the projection is receivable, on the other of the parts. Machine according to claim 7, characterized in that the engaging means (34, 35) between the two parts (32, 33) are located, when these are in their first position, substantially in or in the vicinity of a plane (P2), which is parallel to the pivot axes (36, 37) of the parts and coincides with them. 10 15 20 25 517 351 M: Machine according to one of the preceding claims, characterized in that two first rotatable elements (6, 7) cooperate with one another to form a disintegration zone (14) between them. Machine according to claim 11, characterized in that a second rotatable element (8) cooperates with the counter-cutting device (28) and / or one of the first elements (6, 7) to form a further disintegration zone (s) (17). , 18). Machine according to any one of the preceding claims, characterized in that the movable device (27) is provided on its side facing one of the rotatable elements (6, 7) with means (45) for forming a rotatable element therebetween and said rotatable element. decomposition zone (46). A machine according to claim 1, characterized in that the movable device (27) comprises wall-forming portions located at level above the counter-cutting device (28) arranged to cooperate with the rotatable element (8). Machine according to claim 1, characterized in that the movable device (27) or at least a part (32) thereof is pivotally movable about an axis (36) and that this axis is located at a level above the counter-cutting device (28) which is arranged to cooperate with the rotatable element (8) for disintegration of material.