The present invention relates to a device for separating and lifting solids, in particular, from waste water. The device according to the present invention is of a type comprising a support frame supporting a drum provided with an inlet mouth to be immersed in a channel or in a tank for collecting water to be treated, and an outlet mouth. The drum, which is cylindrical, is delimited by a filter screen. The drum is combined with a coaxial screw conveyor having a lower portion located inside the drum, and an upper portion from which the solid fraction taken away from the waste water exits. The filter screen is adapted to let the liquid fraction of the water flow out downstream of the separating and lifting device.
As shown in EP 2 921 458 A1, a drawback encountered in such devices is due to the fact that, in order to ensure that in the purified waters downstream of the separating device the solid fraction does not exceed a certain particle size or quantity, the filter screen must have openings of reduced dimensions, but this entails their obstruction. EP 2 921 458 A1 tries to solve this drawback with a rotary drum provided with a first filter screen inside which there is a second filter screen always associated with the support frame and provided with holes with a diameter greater than those of the first filter screen. However, the rotating drum is driven by a separate motor from that of the screw conveyor, and a consequent increase in manufacturing costs and energy consumption to allow rotation of the rotating drum occurs.
Further, U.S. Pat. No. 4,634,524 provides a screw conveyor with a rotating drum and internal partitions integral with it. A brush provides a cleaning action from the outside. U.S. Pat. No. 4,634,524 employs for the rotation of the rotating drum the same motor that drives the screw conveyor, with a drawback that both have the same number of revolutions. As a result, the rotating drum has an improper speed in performing its function.
For this reason, the present invention provides a separating and lifting device equipped with a drum carrying the first filter screen of a stationary type.
DE 30 19 127 A1 has a stationary drum made of inwardly projecting equally spaced circumferential discs, and combs with teeth inserted between the circumferential discs and rotating at the same speed as the auger shaft. The solid material recovered from the combs ends up in the funnel slot where the auger shaft is located.
DE 30 19 127 A1 has a drawback that the combs rotate at the same speed as the auger shaft, which is excessive if referred to a cleaning operation. Moreover, the discs have an interspace between one another too high to obtain a small particle size filtration of the solid fraction.
Although it is noticeably different in the form of the filter screen of the stationary drum, DE 30 19 127 A1 is to be considered the document closest to the present invention, because it has combs that scrap the stationary filtering drum on the inside. However, the combs are made of a particular structure which matches the shape of the filter screen, and a device for cleaning them is not provided. Furthermore, since the combs are moved directly from the auger shaft, they are forced to rotate at its speed.
The present invention aims to overcome the aforementioned drawbacks.
In particular, an object of the present invention is to obtain an adequate automatic cleaning of the filter screen of a device for separating and lifting solids from waste water during its operation by means of cleansing members.
Furthermore, an object of the invention is to accentuate the degree of automatic cleaning by improving the periodic cleaning of the cleansing members.
A further object of the invention is to adjust the rotation speed of the cleansing members in order to obtain an optimum automatic cleaning.
The aforementioned objects are achieved by a device for separating and lifting solids from waste water as defined in the attached claim 1 and in the claims dependent thereon.
Further features and advantages of the present invention will become mostly clear from the indicative, and therefore not limiting, description of two embodiments of a device for separating and lifting solids from waste water, as illustrated in the accompanying drawings, in which:
First, reference is made to
The lower portion 8a of the auger shaft 8 is connected to a cleaning apparatus 11 of the first filter screen 6. The cleaning apparatus 11 is formed by a plurality of comb-holder arms 12, four in the embodiment described. Reference is made now also to
Provided on the lower portion 8a of the auger shaft 8 there is a schematically shown epicyclic secondary reduction gear 16, whose output shaft 31 passing through the cross shaped element 13 is joined by means of a clutch or torque limiter 30 with a shaft section 32 on which the comb-holder arms 12 with the coupling 29 are keyed. This arrangement allows to reduce the speed of the cleaning apparatus 11 with respect to the speed of the auger shaft 8 and limits the occurrence of breakages in the event of a jamming of a comb-holder arm 12.
Referring again also to
With reference in particular to
Reference is made now to
It should be understood that the present invention is not limited to the foregoing description, but its scope of protection is defined by the appended claims.
Number | Date | Country | Kind |
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102017000044534 | Apr 2017 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IT2018/000055 | 4/23/2018 | WO | 00 |