The present invention relates generally to a method and a system for sludge removal in a circular settling tank.
Circular settling tanks are commonly used for treatment of water and wastewater. Water containing particles is introduced into the settling tank and the particles will settle to the bottom of the settling tank where they will form a sludge layer. The influent to the settling tank is divided into an overflow and an underflow. Settling tanks are expected to produce a reasonably clean overflow and a reasonably thick underflow. If the emphasis is on the clean overflow they are often named clarifiers and if the emphasis is on a thick underflow they are often named thickeners. The underflow normally leaves the settling tank through a central outlet in the bottom of the tank. The sludge that has collected on the tank bottom is transported to the underflow outlet by means of at least one sludge scraper. A sludge scraper normally consists of a scraper arm with one or more scraper blades attached. The scraper arm may be fixed to a central vertical shaft. The shaft is provided with a drive motor which rotates the shaft and scraper arm(s). Since the scraper blades are set at an angle relative to the scraper arm a transport of the sludge towards the center will result.
As an alternative to the center drive motor, the scraper arm can be driven from the periphery. In that case it is common to have a drive motor running on a driving wheel along the top of the tank wall. The peripheral motor pulls the scraper arm(s) and gives it a circular motion. The driving force is normally transferred to the scraper arm by a truss.
The peripheral drive can pull scrapers working with a heavy load of sludge, but it has certain disadvantages. For instance, in winter snow and ice will interfere with the operation, the peripheral drive makes it difficult to provide a roof over the settling tank and the truss makes it impossible to install inclined settler plate packs in the settling tank in order to increase settling capacity.
In a prior art system, a drive motor is provided at the periphery of the tank. Three vertical shafts extend vertically downwards to close to the bottom of the settling tank, and at least one shaft is connected to the motor. At the lower end of each shaft a cog wheel is provided. The cog wheels connect with a metal ring that is provided along the periphery of the settling tank, just above the bottom of the tank. The scraper arms are connected to the ring. The ring consists of two ring formed sections arranged one above the other. These sections are connected by a great number of metal pins each enclosed by a piece of plastic tube which can rotate freely around the pins and thereby functions as a bearing enabling the ring to be rotated by use of the cog wheels. Since the pins need to be placed close to each other to engage with the cogs of the cog wheels a great number of pins enclosed with plastic tubes will have to be provided, for a large settling tank up to 1000 pieces. In addition to being connected to the ring the scraper arms are also connected to a central rotating means.
A similar scraper drive exists wherein the metal ring has been exchanged for a ring built up by a number of plastic or rubber elements.
An object of the present invention is to provide a system and a method of the kind initially mentioned, wherein the drawbacks of prior art are eliminated or at least minimized. Thus, an object is to provide much simpler, more economical and more reliable sludge scrapers for circular tanks.
According to a first aspect of the invention there is provided a system as defined by the features of the characterizing portion of appended claim 1.
In a preferred embodiment, the engagement surfaces are planar. In this way, the engagement rolls can roll on the engagement surfaces while minimizing the radial forces on the drive ring.
In a preferred embodiment, the engagement surfaces extend radially from the centre of the drive ring, further minimizing the radial forces on the drive ring.
In a preferred embodiment, the drive wheel is star shaped, whereby the engagement rolls can be attached to the drive wheel wherein adjacent engagement rolls are spaced apart.
In a preferred embodiment, six engagement rolls are provided at equal distance from the centre of the drive wheel and at an equal mutual distance. This number of engagement rolls provides good drive characteristics for the drive ring.
According to a second aspect of the invention there is provided a method as defined by the features of appended claim 9.
Additional preferred embodiments are defined in the dependent claims.
By use of the described system and method, much simpler, more economical and more reliable sludge scrapers for circular tanks can be achieved.
The invention is now described, by way of example, with reference to the accompanying drawings, in which:
a-f are planar views showing the interaction between the drive ring and the drive wheel in different rotational positions of the drive wheel; and
In the following, a detailed description of a method and a system for sludge removal from circular tanks will be given.
Reference will now be made to
Suspended to the side wall 106, there is provided a rotatable drive ring 130 which runs all around the side wall and which is part of a drive arrangement, generally designated 120. The drive ring 130 may be attached to the side wall by means of guides 132 or the like. The drive arrangement 120 also comprises a traction assembly 140 which is fixedly attached to the circular side wall 106 and which engages the drive ring 120 to, during operation, rotate the drive ring along the periphery of the circular settling tank 102. The drive ring and the traction assembly will be described in more detail below.
The drive ring 130 runs all along the circular wall 106 at the lower portion thereof, preferably about 0.5-1.0 m from the bottom 104. The drive ring is provided with a plurality of engagement surfaces 134 with are spaced apart with predetermined distance, i.e., they are evenly distributed about the periphery of the settling tank 100. The engagement surfaces 134 may, as shown in
The traction assembly 140 comprises a drive wheel 142, which is mounted to a vertical drive wheel shaft 144. The drive wheel shaft is adapted to be rotated by a rotation arrangement 146, such as a motor/gear assembly. The drive wheel 142, which in the embodiment shown in the figures is star shaped, is provided with a plurality of engagement wheels or rolls 148. In the preferred embodiment shown in
In
The interaction between the drive ring 130 and the traction assembly 140 will now be explained in detail with reference to
In an initial position shown in
Since the engagement rolls are journalled about a vertical shaft attached to the drive wheel 142 and the engagement surfaces 134 are planar, essentially no radial forces are exerted on the drive ring 130 by the engagement rolls 148, since the engagement rolls 148 are allowed to roll on the engagement surfaces as the drive wheel 142 turns.
In
Turning now to
d corresponds to
In
Finally, in
In the drive ring 130 shown in the above described embodiment, the engagement surfaces 134 are made up of a side wall of an opening in the drive ring 130. However, there are many other feasible embodiments, such as the one shown in
Yet an embodiment of the drive ring 130 will now be described with reference to
In yet an alternative embodiment of the drive ring 130, see
The drive ring 130 can alternatively be provided from a bent metal strip 130f cut to a radius corresponding to the radius of the settling tank. Rolled flat steel 130g is welded to the bent metal strip 130f to together form the drive ring 130. This drive ring is provided with a plurality of equidistant bent and bolted or welded metal sheets, each having an essentially planar surface forming the respective engagement surface 134.
The embodiment of
It will be realized that the features of the above described different embodiments of the drive ring 130 can be combined in different ways. Thus, in
In
A system for sludge removal in a circular settling tank has been described. The basic principle of providing engagement surfaces on the drive ring and engagement rolls rotating the drive ring can be generalized to a method of rotating a circular object, such as a rotatable drive ring of a circular settling tank. This method comprises the following steps: providing equidistant engagement surfaces (134) on the circular object, providing a drive wheel with a plurality of engagement rolls (148) adapted to engage the engagement surfaces (134), and rotating the drive wheel (142).
Preferred embodiments of a system for sludge removal in a circular settling tank and a method of rotating a circular object have been described. It will be realized that these embodiments can be varied within the scope of the attached claims without departing from the inventive idea. Thus, it will be realized that the features of the different embodiments, such as the configuration of the drive ring 130, can be combined in different ways. Also, although the system is shown with only one scraper arm 112, it will be realized that a plurality of scraper arms can be provided. Also, there could be one or more skimmers being rotated by the traction assembly 140. The described embodiments include an electric motor for driving the system. Alternatively, a hydraulic motor may be provided for driving the system, either positioned at the top of the tank or at the bottom thereof.
In the described embodiments, the drive wheel is provided with six engagement rolls, but it is realized that as few as three engagement rolls can be provided and many more engagement rolls as well, as long as they are adapted for engagement with the engagement surfaces of the drive ring.
Number | Date | Country | Kind |
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1150760-5 | Aug 2011 | SE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/SE2012/050876 | 8/16/2012 | WO | 00 | 3/5/2014 |