NO802560L - DEVICE FOR AA SUBSTITUTE WASTE MATERIAL BY COMBINED CRUSHING AND TREATMENT - Google Patents

Description

The invention concerns a device for breaking up waste material such as e.g. by combined crushing and shredding. forest waste, waste from building materials and household rubbish, and consisting of a cylindrical drum which can be rotated by means of drive means around a mainly horizontal axis,

and whose mantle is provided with outlet openings for shredded goods, and which has an inner surface provided with tear strips for breaking up goods fed into the drum, while at one end of the drum there are feeding devices for waste.

For the breakdown of waste material, one has so far

largely used hammer mills or the like. Hammer mills have the western disadvantage that the added power is relatively large, more precisely of the order of magnitude 200-800 kW, mainly due to the large starting torques that are required. Furthermore, it is a disadvantage of hammer mills that the breaking down takes place until a certain minimum size of the material is reached, which also requires large energy consumption. Efforts have been made to avoid the disadvantages of hammer mills by using rotating drums that have shredding devices inside. Such drums require significantly smaller motors for start-up and operation, but no significant reduction in energy consumption has been achieved. It is therefore a main purpose of the invention to provide a device of the type mentioned at the outset, where the power of the drive motors can be significantly reduced, so that they e.g. only varies to 20-25% of the required power for a hammer mill, while at the same time that the device is able to carry out the desired comminution of the fed waste materials with the least possible energy consumption.

According to the invention, this purpose is essentially achieved by the interior of the drum being divided in the axial direction into a plurality of sections by means of circular ring-shaped intermediate walls - which are largely vertical to the axis of the drum and join the inside of the drum, and which essentially have the same radial height and sharp inner edge parts, that a plurality of tear strips extend in the drum's longitudinal direction between each pair of rings and evenly distributed over the drum's inner surface, that each drum section is provided with openings for shredded waste distributed over the entire area of the section, and that in the drum there are placed a plurality of elongated, freely movable crushing bodies.

A device of this kind thus has a drum, the inside of which is divided into a grid pattern by means of the intermediate walls and the slats. Such a grid has proven to be extremely effective in working together with the elongated crushing bodies to cause a crushing and shredding of the waste.

The rib strips, which extend in the longitudinal direction of the drum, preferably join the circular annular intermediate walls and preferably have the same height as these.

Both intermediate walls and rip strips are designed to process the material with a tearing effect, as their inward-facing edges are sharp and preferably designed with teeth in a manner known per se.

The invention will be explained in more detail under reference

to the drawing.

Fig. 1 shows an axial section of a device according to the invention.

Fig. 2 shows a cross-section along the line II-II in fig. 1.

Fig. 3 shows a detail of a preferred intermediate wall.

Fig. 4 shows an axial section of a form of crushing body

which can be used, and

fig. 5 shows an embodiment of the left end wall of the drum in fig. 1.

The exemplary embodiment of the device according to the invention includes a mainly cylindrical drum 1, supported on rollers 2 which in turn are supported by stands 3. The rotation axis 4 of the drum, which coincides with its central axis, is horizontal or at least mainly horizontal . The drum is arranged to rotate about the axis 4

and is driven in the embodiment shown via the left rollers 2 on

fig. 1. These rollers 2 are driven by a motor 5 via chains 6 that run over sprockets on the shaft of the motor 5, resp. on the axles for the driven rollers 2. Left end wall of the drum 1 in fig. 1 consists of a lid 7 which can be thought of as being stored pivotably about an axis 7<*>at the lower edge to a position where the left end of the drum is completely or at least essentially open for the removal of goods. It goes without saying that this drum wall 7 e.g. can be made liftable to expose the interior of the drum 1. The right end of the drum 1 in fig. 1 is connected

tet a shaft 8, with which e.g. entire wagon loads of rubbish or building material or other waste can be fed into the drum. In accordance with the invention, the drum is divided into dividing sections by means of annular cross walls 9, 10, 11,

12 and 13. As can best be seen from fig. 2, these are partitions

circular ring-shaped, and their radial height is constant over the entire circumference of the drum 1. The outer surface of the drum is provided within each section with outlet openings 14 and 15, through which shredded waste up to a certain maximum size can be discharged to an underlying belt conveyor 16. The outlet openings are evenly distributed over the entire circumference of the drum and can have any suitable shape, but are preferably mainly rectangular with their greatest extent in the axial direction of the drum. Between each pair of successive intermediate walls, e.g. 9 and 10, tear strips extend there, e.g. 17 and 18, which are preferably made flat with one longitudinal edge attached to the inside of the drum and with the end edges directly connected to the intermediate walls. However, it is also possible to allow the surface of the rib strips to end somewhat in front of the intermediate walls.

The combination of intermediate walls and slats forms a grid on the inside of the drum 1, a grid which partly causes an efficient stirring of the fed waste 19 and partly carries out an effective processing of this with the least possible added power. In order to effect an efficient breaking up with the least possible energy input, a plurality of freely moving crushing bodies are arranged in the interior of the drum over its entire length. Such a crushing body 20 is seen in fig. 1, and in fig. 2

two crushing bodies 21 and 22 are seen. The crushing bodies are elongated and preferably have a length greater than the distance between successive intermediate walls, but less than the drum diameter. Such a crushing body can e.g. consists of a log, e.g. with a weight of 500 kg and a length of 1.5 m in a device with a total length of 8-10 m and a drum diameter of 3-4 m. A drum of this size preferably has intermediate walls with a radial height of 10-20 cm, and the tear strips, e.g. e.g. 9,

has the same height as an intermediate wall, but can also have a somewhat greater or lesser height. Crushing bodies 20-22

will be shifted in the direction of rotation due to the effect of the tear strips

gene and lifted up above the level of the waste material, marked at 23 in fig. 1. When the crushing body has thus been lifted up with a grate, it will eventually fall down towards the waste and partly crush it and partly press it hard against the underlying grates and edges of the intermediate walls. The result is a relatively quick crushing and dismemberment of the fed material, and after being dismembered to a determined size,

the material will be fed through the openings 14 and 15 over the entire length of the drum. In the section which is limited by the intermediate walls 12 and 13 and which is closest to the feed opening 25, the waste level is the highest, and the most easily crushable material will exit through the corresponding openings and fall down towards the conveyor 16. The waste level continuously decreases due to the intermediate walls towards the furthest section on the left in fig. 1,

and in this section the crushing force, i.e. the drop height of the crushing bodies, will also be greatest, whereby the heaviest crushable material will be broken down to the intended size and fall out through the openings in this section. Material that cannot be crushed or disintegrated, e.g. large tin pieces, machine parts etc,

will be collected in the section defined by the lid 7 and the intermediate walls 9 and 10, and can be removed from it by folding the lid 7 aside. In certain cases there are goods that do not go out through the openings, e.g. the openings 14 and 15, of such a size that it can be taken out through an opening in the lid 7,

and at the marked direction of rotation A, such goods will be led up towards the upper part of the drum to be taken out through an opening 26 in the lid 7, located above the axis of rotation 4. Should the waste contain very large parts of goods that do not

can be crushed or broken into pieces, for example discarded refrigerators etc., the lid 7 must however be opened. Fig. 3 strongly schematically shows part of an intermediate wall, e.g. the intermediate wall 10, and it can be seen here that its inner edge 27 is serrated to facilitate the shredding of the waste. The rib strips, e.g. rivl<isten>^ f can of course also be provided with such rivulets. Fig. 4 shows a simplified crushing body consisting of a massive iron core 28 covered with a relatively soft coating

29, e.g. of natural rubber. Such a crushing body, which as mentioned can have a weight of e.g. 500 kg for a drum with a length of 8-10 m and a diameter of 3-4 m, can be replaced with another heavy body with a relatively soft surface, e.g. a cylindrical log of wood.

It goes without saying that the described embodiment of the invention can be modified in various ways. For example, the hopper 19 can be replaced with a belt conveyor that continuously feeds goods into the drum, and the conveyor 16

which is driven by a motor 30 (fig. 2), can be replaced with an inclined chute or the like.

Radial height of the intermediate walls or of the tear strips is not critical, but is suitably 3-20% of the inner diameter of the drum.

Claims (4)

1. Device for breaking down waste materials (19), for example forest waste, building material waste and household rubbish, by combined crushing and tearing and consisting of a drum (1) which can be rotated about a mainly horizontal axis (4) by means of drive means (2) . shredders (17, 18, 27) for breaking up material fed into the drum and where a plurality of freely movable crushing bodies (20, 21, 22) are arranged in the drum (1), characterized in that the interior of the drum is divided in the axial direction into a plurality of drum sections by means of ring-lined continuous partitions (9-13) which extend substantially perpendicular to the axis of the drum and join the inner surface of the drum, and which in between have essentially the same radial height and have sharp edge parts (27) facing the center of the drum, so that a plurality of tear strips (17, 18), and that the aforementioned outlet openings (14, 15) are distributed over the entire area of each drum section. 2. Device as specified in claim 1, characterized in that the inner edges of the intermediate walls are provided with ripping teeth (27). 3. Device as specified in claim 1 or 2, characterized in that the edges of the ripping strips facing the inside of the drum are provided with ripping teeth. 4. Enclosure as stated in claim 1, 2 or 3, characterized in that the crushing bodies have a length which preferably exceeds the distance between successive intermediate walls, but is smaller than the drum diameter.