The present disclosure relates to machines for treating waste and more particularly a machine for treating organic waste, which may be an endless-screw pressing or grinding machine.
Waste treatment pressing/grinding machines are able to treat organic material resulting from waste collection, by separating at least partially the liquid part from the solid part. Differently from the machines which merely break up the waste, pressing machines must produce a solid residue which is substantially water-free. The liquid fraction may be used for the production of biogas, while the solid fraction may be burned or used for composting. A machine of this type which is currently commercially available is for example the machine produced by DOPPSTADT™ under the trade name BioPress DBP-205 (http://www.ecoverse.net/products/biopress-dbp-205/), which is well-known and will be not described in further detail.
Pressing machines typically consist of a conical-axis endless pressing screw, which rotates inside a cylindrical chamber delimited at the bottom by screening grids with openings suitable for allowing the liquid, but not solid material, to pass through. The conical-axis endless screw is shaped so that:
at an end for introducing the waste into the cylindrical chamber, there is a greater distance between the axis of the endless screw and the walls of the cylindrical chamber;
inside the cylindrical chamber the diameter of the endless screw increases in the direction from the opening for introducing the waste to the opening for discharging the waste devoid of the liquid fraction.
When organic waste is introduced into the cylindrical chamber through the inlet opening, it starts to be crushed between the screening grid which delimits the cylindrical chamber and the part of the endless screw shaft which has a smaller diameter. When the endless screw is rotated, the waste is made to advance inside the cylindrical chamber towards the zones where the shaft has a bigger diameter, so that it is always pressed against the grids which delimit the cylindrical wall. Once the waste has crossed longitudinally the cylindrical wall, the liquid fraction has already fallen through the grids, so that only the solid fraction is output from the discharge opening.
One drawback of these machines is that they are prone to damage of the grids and the augers, typically due to hard objects such as stones which are mixed up with the waste to be pressed and end up inside the machine. When a stone enters the machine and becomes lodged between the auger and the screening grid or becomes lodged between the two oppositely arranged augers (where the grinding machine has two of them) a protection sensor detects an increase in the torque level of the motor and stops it.
However, even the fastest protection sensors are unable to interrupt operation of the motor as soon as the blockage occurs, so that the machine forces the rotation of the auger for a certain time period before stopping. This time period is, however, sufficient for the machine to suffer irremediable damage, such that it must be taken out of service and repaired before it can used again, with the consequent costs for spare parts and downtime.
This problem is even more critical in the case of relatively high power grinding machines where it is important to prevent the occurrence of situations where the auger which grinds the waste may be subject to excessive forces.
Experiments carried out by the Applicant have shown that it is possible to overcome this drawback. As mentioned above, stones or other hard waste risk damaging the endless screw profiles of the pressing machines since they may become lodged between the profiles and the casing. This occurs, however, because the shaft on which the profiles are mounted is firmly coaxially coupled to the rotating shaft of the motor which causes it to rotate. Consequently, the profiles are all at the same distance from the inner walls of the casing and so it may happen that a stone becomes lodged between them and the casing.
Differently according to the present disclosure, the shaft which is located inside the inner chamber of the waste treatment machine is coupled to the motor shaft by means of an oscillating bearing, for example an oscillating roller bearing, which allows an angular misalignment between the longitudinal axis of the inner chamber shaft and the motor shaft.
More precisely, this disclosure provides a machine for treating organic waste as defined in claim 1. A particular feature of the machine is that it comprises a system for transmission of the movement from a drive shaft to the driven shaft of the machine, which is installed inside the inner chamber for pressing or grinding the waste, with a self-aligning bearing for allowing an angular misalignment between the longitudinal axis of the driven shaft and the axis of rotation of the drive shaft, so that a free distal end of the driven shaft may fluctuate heightwise inside the inner chamber of the machine.
According to this disclosure, the organic waste treatment machine may be a pressing machine with a single endless screw or double endless screw, or a grinding machine with hammers pivotably mounted on the periphery of the driven shaft installed inside the inner chamber of the machine.
The claims as deposited form an integral part of the present disclosure and are incorporated herein by way of specific reference.
A machine for pressing waste according to the present disclosure, of the horizontal endless screw type, is shown in
Differently from similar machines which are at present commercially available, the pressing machine of this disclosure has a shaft with an endless screw profile which is able to rotate, while its axis oscillates heightwise inside the inner chamber. The cross-sectional view in
This effect is obtained by means of oscillating bearings, such as the oscillating bearings shown in
When the pressing or grinding machine of the present disclosure is empty and contains no waste, the free end of the driven shaft 4 is misaligned with respect to the axis of rotation of the drive shaft 5 because of its weight, and the endless screw 3 touches the inner chamber 2 inside which the waste is ground or pressed. As the waste is introduced, the inner chamber 2 of the machine is filled and the free end of the driven shaft 4 is raised from the bottom of the inner chamber 2, being arranged approximately in the centre thereof during a normal operating condition when full of waste.
When in operation, the machine according to the present disclosure functions practically in the manner of an ordinary waste grinding or pressing machine. If, however, there should be a stone or other hard object mixed up with the waste, there is no risk of it damaging the endless screw 3 of the machine or underlying screening meshes which delimit the inner chamber for grinding/pressing the waste, as instead occurs in the ordinary grinding/pressing machines. In fact, even if a stone should become lodged between the endless screw 3 and a screening mesh, the free end of the driven shaft 4 is raised owing to the self-aligning roller bearing 8. In this way, the stone is able to be freed and advance inside the inner chamber 2 until it reaches the discharge outlet.
Not only does the self-aligning roller bearing 8 prevent—or at least greatly reduce—the damage to the endless screw and to the screening meshes, but it also protects the motor from becoming seized. In fact, the sudden stresses due to the temporary wedging of the stone are absorbed by the self-aligning roller bearing (of the type shown cross-sectioned in
In the example shown in
According to an aspect not shown in the Figures, the drive shaft and the driven shaft are coupled together by means of pulleys on which a friction belt is wound, as described in Italian patent application No. 102017000150259, filed on 28 Dec. 2017, in the name of the same Applicant. The tension of the friction belt is calibrated so that the belt slips on at least one of the pulleys of the drive shaft or the driven shaft when the motor torque exceeds a nominal maximum value. In this way, the machine is provided with a further system for protection against any stones which become lodged between the profiles.
As explained in the aforementioned Italian patent application, which is incorporated herein by way of specific reference, seizing of the profiles due to material which has become lodged between them and the walls of the inner chamber results in a sudden increase in the twisting torque required by the motor, which causes the friction belt to slip. This event may be readily detected by special sensors, which cause the generation of an alarm signal and the stoppage of the motor of the driven shaft which is blocked, so as to prevent damage to the profile.
A waste grinding machine, according to one aspect of this disclosure, is shown in
Number | Date | Country | Kind |
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102018000021385 | Dec 2018 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IB2019/060915 | 12/17/2019 | WO | 00 |