DE2302341A1 - SHREDDING DEVICE FOR WASTE MATERIAL - Google Patents

Description

Dr. Hans-HeinriA Willrath _D _ ₆₂ "JM _n . ₁₉₇₃

Ur. Dieter Weber Postfa * 1327

Dipl.-Phys. Klaus Seiffert Z7SS5S? *. ^{I / Wh}

PATENTANWÄLTE ■ ^rd <* <* ^m ™ ^a ™ * « willpatent

Docket 5468

The Black Clawson Company, 605 Clark Street, Middletown, Ohio 45 042, USA

Shredder for waste material

Priority; Serial No. 220 950 dated January 26, 1972 in USA

The invention is concerned with the disposal of solid waste material, in particular of the type such as waste usually in institutions and institutions, e.g. office buildings, hospitals, Hotels and the like. Such institutional waste usually contain not just very large quantities of paper and paper products, but also fragile materials, such as glass, and relatively tough tape or sheet material, such as hoses, rags, Ropes, wire and plastic sheets. All of these types of material as well as significant amounts of metal waste are commonly found in municipal garbage, and that in U.S. Patent 3,595 described device, the swing hammers on the rotor and with the

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Postal check: Frankfurt / Main 6763 Bank: Dresdner Bank AG, Wiesbaden, tConto no. 276807

Stator has cooperating friction bars has been found to be very Proven successfully for shredding urban rubbish to a pulpy consistency, using the unbreakable substances can be selectively separated. As a result, this device is on most successful for purposes that require a robust system, but a plant of such robust performance is usually not for smaller plants, especially for disposal of office and hospital waste required.

The invention has the object of creating a shredding device which is specially designed for use in the disposal of solid waste, including There can be a very wide variety of materials of the type indicated above, but which are usually not large metal objects as they are commonly found in urban waste. The device of the invention is particularly useful for shredding solid waste that contains substantial quantities of relatively tough strip or sheet material, such as string, Contains wire, plastic sheeting and tubing, leather and fabrics.

The device according to the invention suitably comprises a grinder with the general features of the US patent 3,339,851 which is equipped with a vane rotor construction as generally disclosed in the United States patent 3,073,535 and is intended to be loaded with a suspension of solid waste in a liquid carrier to ground. Certain rotor blades or blades are equipped with a cutter that is mounted on the underside

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that works with stationary cutting devices, around the strip or sheet of material around their leading edges folds and stacks, while cutting into smaller pieces the blades shred the crushable material through a combination of mechanical action and hydraulic shear. In addition, every shovel that carries a cutting device is also equipped with at least one rib on its upper side, which restrains the stacked strip material against outward movement along the paddle until it is between the moving and the stationary cutting device is cut without a contact of metal to metal of the cutting devices required

The basic idea of the invention is that the rotor blades tend to self-cleaning of material during operation that could interfere with the cutting equipment because metal and other heavy pieces are not held by the ribs, but pushed out of the cutting area both by centrifugal action and by the scissor-like action of the cutting knife “At the same time, however, strip and sheet material that requires cutting is held by the blades and carried immediately in position for cutting to the particle size range desired for further processing. Accordingly, the invention provides a comminuting device capable of converting flexible material from rigid material and subject each type of fragile material separately to the desired crushing action, while unbreakable Material is expelled that could damage the leading edges of the blades.

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In the drawing are advantageous embodiments of the invention shown.

Fig. 1 shows in a vertical section somewhat schematically a shredder built according to the invention.

FIG. 2 is a fragmentary view of the 7, reduced in FIG. 1, on a larger scale.

Fig. 3 is a fragmentary sectional view taken generally along line 3-3 of Fig.

Figure 4 shows a detail of the outer end of one of the rotor blades viewed in the direction shown by line 4-4 of the figure.

FIG. 5 is a detailed view of the outer end of another blade viewed along line 5-5 of FIG. 2.

FIG. 6 is a partial view of the guide surface of the vane of FIG. 5 taken along line 6-6 of FIG. 2.

Figure 7 is a fragmentary view in radial section of another rotor mold assembly according to the invention.

FIG. 8 is a partial section along line 8-8 of FIG. 7.

9 explains the application in a schematic representation of the invention to the rupture of airborne material

FIG. 10 is a top plan view taken along line 10-10 of FIG. 9.

Fig. 11 and "

Fig. 12 are diagrams for explaining the application the invention to another form of a breaking device, FIG. 12 being a section along line 12-12 of FIG.

The shredder shown somewhat schematically in Fig. 1 has a nozzle 10 with a cylindrical side wall and conical

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shaped bottom section 12. The remaining bottom part consists from a perforated discharge plate 13, which separates the interior of the nozzle and a chamber 15 for receiving a slurry of particles small enough to pass through the holes in the plate 13. The holes usually have a diameter in the range of about 6 to 25 mm. A line 16 carries this slurry away from the chamber. The wall 12 also has an outlet 17 for unbreakable parts which change under gravity to a chute 18, for example by means of of the garbage collector shown in U.S. Patent 3,549,092.

On the upper end of a shaft 22 which extends through the discharge plate 13 extends, a rotor 20 is rotatably mounted close above the Äustragplatte. The drive 23 for the shaft 22 is indicated schematically. The rotor 20 is generally of the construction shown in US Pat. No. 3,073,535, already mentioned. It consists of a rotor body 24 with several protruding therefrom that overlap the holes in the bearing plate 13 Shovels. Two of these blades 25 have essentially the same shape as shown in patent specification 3,073,535, and although each of them has a guide surface part 26 and one smooth top and bottom surfaces 27 and 28 behind the leading one Part 26. As can best be seen from Fig. 4, the area is 26 at a small angle towards the front against the discharge plate 13 inclined to force a liquid suspension into the nozzle in the surface of the plate as the rotor rotates.

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The other two blades 30 are generally the blades similar. Each has an upper and a lower surface 31 and 32 which follow a leading edge 33. However, this is upwards instead of being inclined downwards like the leading part 26. Instead of a smooth top, each vane has 30 on its top surface a pair of ribs or fins 35 that are generally tangential in an intermediate slot 36 and covered with a hard surface coating 37 such as stellite their leading edge surfaces are provided. In addition, each blade 35 has a cutting rod 40, which is fastened with screw bolts 41 generally aligned on its lower surface with the leading edge thereof 33 is mounted. Two complementary stationary cutting rods are on the upper side of the discharge plate 13 on a common Diameter mounted, as best seen in Fig. 2 can be seen.

The purpose of the cutting rods 40 and 42 is to be tough or strip-shaped Cut material as the rotor 20 rotates, and the ribs 35 serve to feed such material to these cutting rods in the best position for repeated cutting action. So when the rotor rotates, the blades 25 and 30 call one circular circulation of the liquid within the nozzle 10, and in this liquid suspended solid material follows a course of movement on which there is a centrifugal effect from The rotor will run outwards until it rises up the wall 11 and then falls back into the center of the vortex. The rotor has again a selective effect on this material; for he subjects it to a cutting or mechanical force and

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hydraulic shear depending on whether the material is rigid or pliable.

Rigid material is shattered by the vanes' guide surfaces, so that fragile material, such as glass, shatters while unbreakable parts, such as pieces of metal, move around until they fall through the outlet 17 onto the chute 18. Lightweight materials, such as rubbish, wood, and paper, are made by the Combination of mechanical and hydraulic shear, which the suspension experiences through the blades 25 and 30, frayed or shredded.

Flexible material, especially cord, wire and plastic sheeting or hose, are treated differently. If a piece of such material is hit by one of the blades 30, thus the pulp flow is split into two parts, which migrate above and below the relevant blade, so that such material jams or folds around the leading edge of the blade and the cutting stafo 40, if this occurs at one of the blades 25, the accumulated material migrates outwards to the end of the bucket and returns to the flow. But if it does encounters a bucket 30, the jammed material is held by the bucket so that it is cut when it moves on to the next stationary cutting rod 42 arrives. This effect is repeated when the flexible material circulates in the nozzle until it is sufficient has often been cut to break it up into small enough particles to pass through the holes in the discharge rod 13 go.

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It is also advantageous that the effect of the rotor and the Chopping rods take pieces of flexible material into alignment Forcing generally parallel with the surface of the discharge plate after cutting so that the material usually does not goes through a hole in the discharge plate, if not its largest Dimension is smaller than the hole diameter. As a result, long and strip-shaped material is predominantly in the Chopper withheld until it was cut into relatively small pieces has been.

Construction and operation of the blades 30 and those seated on them Ribs 35 thus take care of most of the selective action of the rotor in cutting flexible material as it is at the same time protect the cutting rods 40 and 42 against rigid material that could damage their cutting edges. As can best be seen from FIG. 6, the fins 35 are accordingly sufficiently rounded in the radial section to reduce any effort to catch and hold back hard material as much as possible, which moves along the rotor surface under the influence of centrifugal force, and the upwardly inclined leading edges 33 also cause hard material to deflect upwards. Hard material will therefore continue to circulate until it is completely crushed or has fallen through outlet 17 and normally it will does not come into contact with the cutting rods, but the flexible material will be allowed to move outward long enough held back in order to expose it to the explained cutting action.

Other factors also contribute to selectivity and protection the cutting edges of the cutting rods 40 and 42 bsi, namely once

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the space between the underside of each cutting rod 40 and the surface of the discharge plate 13. This results in a limit on the thickness of flexible material that is around the
Leading edge of each vane 30 can fold or jam. Satisfactory results are achieved when this distance is in the range of about 6 to 13 mm.

The other factor is the shear article defined by the cooperating edges of the cutting rods 40 and 42.
Preferred results have been achieved at such an angle on the order of 30 ° as indicated by the dashed line
Outline of rod 40 superimposed on cutting rod 42 in FIG. 2
is shown. This relationship results from the tangential attachment of the cutting rods 40 to the rotor at an angle of approximately 30 ° to the corresponding radius. If pieces of metal, such as nails or screws, should come into shearing position, then at shear angles of this magnitude the cutting rods will
drift outward without shearing them, protecting their cutting edges. Another practical advantage is that the cutting bars are simple rectangular bars made of metal
that are easy to manufacture, maintain and adjust.

In order to achieve particularly advantageous results over extended periods of time, the cutting rods 40 and 42 are preferably in
closely spaced but not in contact with each other
arranged. A game on the order of about 0.07 to
0.50 mm (0.003 to 0.020 inches) has been found to be satisfactory
for the treatment of institutional and office waste. Fig. 3 explains an adjustable bearing for the rotor shaft 22 for the purpose

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Setting the preferred distance for the cutting blades. The lower end of the shaft 2 is axially in a cup-shaped receiving sleeve 44 held by means of bearings 45 and locking ring 46. The receiving sleeve 44 is in the lower end of the bearing housing 47 screwed in and can therefore be screwed in and out to move the rotor shaft and rotor up and down to adjust the relative spacing of the movable cutting rods.

Although the construction described above is preferred, considerable design modifications are within the scope of the invention possible. For example, the number of blades and ribs on each blade 30 can be varied. Preferably is but the blade arrangement is always symmetrical in order to rule out imbalance conditions. Similarly, the number of knives if desired increased or decreased, and the relative angles of rotation can be modified as long as how the protective effect explained above is maintained.

Figures 7 to 8 illustrate the application of the invention to another Shredder construction with a relatively flat rotor with friction or pump projections 51 on its upper side rotatable in a tub with a more cylindrical perforated discharge ring 52 is. The rotor 50 also carries near its outer edge an upwardly directed vane 53, the leading edge 54 of which is upward and is beveled against its direction of movement in order to work as a cutter with one or more stationary cutting rods 55, which are mounted on the inner surface of the discharge ring 52. The play between these cutters is shown in FIG. 8 exaggerated. Material around the leading edge of the

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Bucket 53 damming would ordinarily aim upward and migrate back into your fluid stream, but this will prevented by at least one of the ribs 56 on the radially directed inner surface of the blade 53, which like the ribs 35 cause accumulated material on the leading edge 54 to be retained by the stationary rods 55 in the position for cutting will.

The principles of the invention are particularly applicable on shredders that process solid material in liquid suspension, but the same basic ideas are also on shredding applicable to airborne material. Figures 9 and 10 illustrate an apparatus for this purpose. According to FIG. 9, the to be cut up oil pieces 60 through a shaft 61 for Conveyed top of a rotor 62, which is similar in structure to the rotor 2O and carried by a shaft 63 with motor drive 64 is. The rotor 62 has a pair of blades 65 with ribs 66 symmetrically spaced on the top and cutting bars on the underside, which cooperate with four stationary cutting rods 68.

The apparatus shown in Figs. 9 and 10 is essentially a The shredder for paper and other flexible material and the ribs 66 operate in the same manner as they do for the ribs 35 has been described in that they contain accumulated pieces of flexible material against outward movement along the rotor blades 65 hold back long enough to get such pieces of material. between the movable and stationary cutting rods 67 and to be cut. This type of device becomes common

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to be used for material that is essentially free of hard Pieces is. But if there are any hard pieces, the blades will similar to them from the cutting area Throw out the way as described for the rotor 20.

Figs. 11 and 12 show another type of shredder in which several Rotors 70 are mounted on a common shaft 71, each of which has a pair of blades 72 on one side Has ribs 73 and cutting blades on the other hand, which cooperate with stationary cutting blades 77. In this device the material to be shredded falls through a chute 80 into the room where the rotors 70 work, and the cut material Pieces continue their downward movement towards outlet 81. The operation of the ribs 72 is the same in this embodiment of the invention essentially the same as the other forms already described.

The apparatus shown in Figures 9 through 12 shows that the invention, while particularly useful for treating solid / fall material is, however, it is also applicable to other types of work in which flexible strip material is cut. For example For example, a device similar to that of Figures 9-10 can easily be built with dimensions such that long threads, e.g. made of nylon or the like. To be cut into short pieces. All Advantages of the invention set forth above will become apparent in such uses, including repulsion Any hard material present and protection of the cutting devices from this.

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Claims (10)

Claims JlJ "orrichtunq for reducing waste, which is relatively flexible "■ 'aterial, such as hoses, rope, wire, plastic sheeting and the like., and optionally containing fragile pieces, with a vat for receiving a suspension of the waste material in a carrier medium, with a perforated rTand to discharge the crushed material Material and with a rotor working on the perforated wall, characterized by at least one protruding over the rotor Shovel at a distance from the vat rim with a leading edge and these following outer and inner surfaces, attached to the tub wall opposite the shovel cutting device and a cooperating with it on the blade in alignment with it the leading edge extending cutter and at least one lip on the outer surface of the blade, the length of which extends generally tangentially to the rotor body. 2. Apparatus according to claim 1, characterized in that a plurality of blades are attached to the rotor in a uniform drink lab st and, on each of which there is one of the cutting ^{devices, and that a plurality of cutting devices are also arranged at T} ' ^T angular distance around the rotor axis . 3. Apparatus according to claim 1, characterized in that on the Rotor several blades are arranged at an even angular distance, on each of which a cutting device sits, and a plurality of stationary cutting devices are arranged at an angular distance around the eotor axis. 309831 / 04b3 4. Apparatus according to claim 2 and 3, characterized in that the other blades have surfaces that act pumping. 5. Device according to one of claims 2 to 4, characterized in that that at least two ribs in a generally radial • Stand on each of the selected blades are mounted. 6. Apparatus according to claim 2, characterized in that. that the drive shaft of the rotor extends out through the tub wall and an adjusting device for the relative adjustment of the distance between the cutting rods on the shaft is accessible from the outside. 7. Device according to Ajis-oruch 2, characterized in that the Cutting directions have substantially straight cutting edges and are arranged so that these edges have relatively large shear angles when the movable shear device passes over the Determine the fixed shear device. 8. Apparatus according to claim 7, characterized in that the shear angles are in the order of magnitude of 30. 9. Apparatus according to claim 2, characterized in that the rotor with each scoop at a predetermined distance from the tub wall such that a maximum size of flexible material can fold over the leading edge of the shovel and the cutting device attached to it. 10. Apparatus according to claim!, Characterized by an outlet in the bottom of the tub, which is directed radially outwards from the blades, while a permanently mounted cutting device on the bottom of the bot below the blades and another cutting 309831 / CHS3 set up on the underside of at least one shovel that are in general alignment with the cutting edge the shovel extends. 309831 / 04b3 Empty soap