EA004976B1 - A sector element of a disc filter - Google Patents

Abstract

1. A sector element of a disc filter, comprising at least a sector portion (15) with a substantially planar opposite sides (6), and edges (12) and an end (13) connecting the sides (6), and adapted to form together a hollow space, each side (6) being substantially triangular and comprising a plurality of openings (7), and a neck portion (14), where the upper part is connected to the sector portion (15) and the lower part comprises a mouth portion (14) that can be connected to a frame part (4) of the disc filter (1), the neck portion (14) comprising a flow channel (16), via which the hollow interior of the sector portion (15) can be connected to the frame part (4), characterized in that the edges (12) of the sector portion (15) form an angle of substantially 30 degree , and the ratio of the area (AS) of one side surface (6) of the sector portion (15) to the inner cross-sectional area (AK) of the flow channel (16) over the mouth portion (20) is 105 or less. 2. A sector element according to claim 1, characterized in that the sector element (5) has a height (L) extending from the end (13) of the sector portion (15) to the bottom of the neck portion (14), and that the ratio of the height (L) of the sector element (5) to the inner cross-sectional area (AK) of the mouth portion (20) is 270 (1m) or less. 3. A sector element according to claim 1 or 2, characterized in that the sector portion (15) and the neck portion (14) are separate components that are detachably connectable together. 4. A sector element according to claim 3, characterized in that the lower part of the sector portion (15) is provided with a dent (17), and the neck portion (14) correspondingly comprises an expanded section (18) corresponding to the of the flow channel (16). 5. A neck portion to be connected to a sector portion (15) of a sector element (5) in a disc filter (1), the sector portion (15) comprising side surfaces (6) with an area (AS), the neck portion (14) comprising a mouth portion (20) that is connectable to a frame part (4) of the disc filter (1), and a flow channel (16) for connecting together the sector portion (15) and the frame part (4), characterized in that the flow channel (16) of the neck portion (14) is designed such that the ratio of the area (AS) of one side surface (6) of the sector portion (15) to the inner cross-sectional area (AK) of the flow channel (16) over the mouth portion is 105 or less.

Description

FIELD OF THE INVENTION

The present invention relates to a sector element of a disk filter comprising at least a sector part having substantially flat opposite sides, faces and an end wall connecting the sides, said sides, faces and an end wall defining an empty space, and each side has a substantially triangular shape and contains several holes. The sector element also contains a neck portion, the upper portion of which is connected to the sector portion, and the lower portion is equipped with a nozzle configured to connect to the disk filter frame, the neck portion comprising a passage through which the internal cavity of the sector portion communicates with the frame.

The invention also relates to a neck portion for connecting to a sector portion of a sector element in a disk filter, the sector portion having sides of a certain area. The neck portion comprises a nozzle adapted to be connected to the frame of the disk filter, and a passage channel providing communication of the sector portion with the frame.

State of the art

The need to separate suspensions into liquids and solids by filtration exists in areas such as mining, metal refining, chemical industry, and in technological processes used in the food and pharmaceutical industries. For filtration with separation of liquid from solid particles, there are mechanical filters of various principles of operation. A common filter for separating liquid and solid fractions is a disk filter in which the separation of liquid and solid phases is based on the use of the pressure difference and the filter cloth.

The disk filter comprises a tubular frame, on the outer periphery of which substantially triangular sector elements are mounted. These elements are located next to each other to form a disc-type structure. Negative pressure is created inside the sector elements, and the flat side surfaces of the sector elements act as filter surfaces provided with a filter cloth. Holes are made in the filtering surfaces, through which the liquid passing through the filtering cloth enters the sector element. From the sector element, the liquid flows to the frame of the disk filter under the influence of negative pressure. A disadvantage of the known sector elements is that the parameters of the flow going inside the sector element towards the frame are not effective enough, as a result of which the filter's ability to separate the liquid is reduced.

SUMMARY OF THE INVENTION

The problem to which the present invention is directed, is to create a new improved sector element and the neck of the sector element for a disk filter.

In accordance with the invention, the solution of the problem is achieved due to the fact that the faces of the sector part of the element form an angle equal to essentially 30 °, and the ratio of the surface area of one side of the sector part to the internal cross-sectional area of the passage in the pipe is less than or equal to 105.

A distinctive feature of the neck part according to the invention is that the passage channel in this part is designed so that the ratio of the surface area of one side of the sector part to the internal cross-sectional area of the passage channel in the pipe is less than or equal to 105.

According to the basic idea of the invention, the faces of the sector element form an angle of substantially 30 °. Such a sector element is intended for a disk filter containing twelve sector elements. In addition, in each sector element, the ratio of the surface area of one side of the sector part to the internal cross-sectional area of the passage channel in the neck section is less than or equal to 105.

An advantage of the solution according to the invention is that the hydraulic resistance in the neck portion of the sector element can be reduced by making this part wide enough with respect to the filtration area of the sector element. In addition, the invention provides an optimal flow rate in the passage channel of the neck portion. Thus, the liquid phase that has entered the sector element through the filter can freely flow from the sector element into the frame, which improves the filtering ability of the device. Further, since the liquid can be quickly and completely removed from the sector element, the device according to the invention, in comparison with known solutions, gives a dry solid fraction of good quality, as a result of which there is no need for further dehydration in the subsequent stages of the process.

According to the main idea of an example embodiment of the invention, the ratio of the height of the sector element to the area of the internal cross section of the passage channel in the pipe is less than or equal to 270 m ^-1 . Due to this, the liquid phase, which penetrated into the sector element through the filter, can flow out of the relatively short sector element faster than in the known solutions.

List of drawings

Embodiments of the present invention will be described in more detail below with reference to the accompanying drawings, in which FIG. 1 schematically depicts a disk filter in a side view;

FIG. 2 schematically shows in a side view a sector element of a disk filter;

FIG. 3 - sector element of FIG. 2 in the view along arrow B;

FIG. 4 schematically depicts in a side view a sector element known in the art;

FIG. 5 is a side view of a sector element in accordance with the invention;

FIG. 6 is a side view of another embodiment of a sector element in accordance with the invention;

FIG. 7 is a schematic side view of the neck of a sector element in accordance with the invention.

Information confirming the possibility of carrying out the invention

For greater clarity, the invention is presented in the drawings in a simplified form. Similar elements are indicated in the drawings with the same reference numerals.

In FIG. 1 shows a disk filter 1 comprising a reservoir 2, into which a suspension is fed from the feed channel 3 and is to be separated into liquid and solid phases. It should be mentioned that the surface level of the suspension in the tank 2 is usually lower than that shown in FIG.

1. The disk filter 1 also contains a frame 4, rotating around a horizontal axis. The frame 4 can be formed by a single tubular part or several parallel tubes 4a. On the outer periphery of the frame 4, several substantially triangular sector elements 5 are mounted, which are located next to each other so that they form a relatively narrow disk type structure around the frame 4. One frame 4 may contain several such disk structures spaced apart at an appropriate distance in the axial direction. The triangular sides 6 of each sector element 5 act as filter surfaces. Holes 7 are made in the sides 6, and the filter cloth 8 is adjacent to the sides, functioning as a filter layer. The disk filter frame 4 rotates around its longitudinal axis in the direction A, so that the sector elements 5 are in turn immersed in the suspension 9 contained in the reservoir 2. In the sector element 5 immersed in the suspension 9, negative pressure or vacuum is created through the frame 4. Thus, the fluid can pass through the filter cloth 8, as shown in FIG. 3, and then through the holes 7 in the side 6 into the sector element 5. From the internal cavity of the sector element 5, the liquid flows under vacuum into the frame 4 and is removed from the disk filter 1, while the solid phase remains on the surface of the filter cloth 8. Then, the solid phase is removed using cleaning scrapers 10 or similar elements in the discharge chute 11 before the next filtration cycle. To improve solid phase removal, overpressure may be created within sector element 5.

Shown in FIG. 1, the disk filter 1 comprises twelve sector elements 5, so that the faces 12 of each sector element 5 form an angle of substantially 30 °. Thus, the side of the sector element 5 in the disk filter 1 of a certain radius I has a maximum limited area

BUT,.

As shown in FIG. 2 and 3, the sector element 5 comprises a neck portion 14 connecting the sector part 15 to the frame 4. In FIG. 2 and 3 shows a dividing line 21 on which the angle of inclination of the faces of the sector element 5 changes. This dividing line 21 defines a sector part 15 occupying the extreme region of the sector element 5 and a neck part 14 located near the frame 4. Bottom of the neck part 14, then there is a side on its side closest to the frame 4, there is a pipe 20 that can be tightly inserted into the hole or other connecting surface formed in the frame 4. A passage channel 16 passes through the neck portion 14 and the pipe 20, so that the liquid phase that has penetrated insideVectorial portion 15 may follow this path to the frame 4 and on for further processing. The cross section of the passage channel 16 may be round, oval, rectangular or polygonal. However, a circular cross section is preferred in view of the flow properties.

FIG. 4 depicts a sector element 5 'known in the art. The lateral side 6 of the sector portion 15 has an area A, ', and the passage channel 16 of the pipe 20' has an internal cross section of area A _k '. In addition, the sector element 5 'has a height b' from the top of the sector part 15 to the lower point of the neck part 14.

FIG. 5 schematically depicts a sector element 5 in accordance with the invention. A comparison of the sector elements 5 ′ and 5 shown in FIG. 4 and 5, shows that in the sector element 5 according to the invention the height of the neck portion 14 may be less than in the known solution. Due to this, the diameter Ό of the frame 4 can be increased without the need to increase the radius I of the disk filter 1. With a larger diameter Ό of the frame 4, it is possible to provide passage channels of large sizes in it, which improves the transportation of the filtered liquid phase in the production process. The sector part 15 may come closer to the frame 4, and despite the increased diameter And of the frame 4, the area A, the side 6, which is involved in the filtering, is essentially equal to the corresponding area in the known disk filter of the same radius B. In addition Moreover, the frame 4 of increased diameter And can be equipped with sector elements 5 with wider passage channels 16 than before. In the device according to the invention, the liquid phase, which passes through the sector part 15, can more effectively move to the frame 4 for the following reasons. Firstly, the cross-sectional area of the passage channel 16 in the neck portion 14 is sufficiently large with respect to the area A, the filtration of the side 6, which reduces the hydraulic resistance and ensures optimal flow rate in the passage channel 16. On the other hand, the height b of the sector element 5 less than in the known solutions, so that the distance traveled by the fluid to the frame 4 is small. In addition, due to the short neck portion 14, the passage channel 16 is also shorter than in the known solutions, which reduces the hydraulic resistance in the neck portion 14.

The sector part 15 and the neck part 14 may be made as a single element or be separate elements attached to each other in the manufacture of the sector element 5. In FIG. 6 shows another design in which the sector element 5 consists of parts that can be connected and disconnected from each other. The neck portion 14 and the sector portion 15 can be inserted into one another with a defined overlap, as shown in FIG. 6 and 7, so that the protrusions 19 or other similar fastening means provided on the sector part 15 enter recesses or other corresponding places in the neck part 14. Another alternative way of joining the neck and sector parts is, for example, using hot-melt adhesive. The advantage of this design is that the neck portion 14 can be made in the form of a replaceable element, which can be quickly and easily replaced when the passage channel 16 is worn. Usually, the sector portion 15 is not subjected to such intensive wear and such high loads as the neck portion 14, and has a significantly longer service life. On the other hand, the neck portion 14 may be made of a material with high wear resistance. In addition, the wear resistance of the passage channel 16 in the neck portion 14 can be increased, for example, by increasing the thickness of the channel walls in critical places.

As shown in FIG. 6 and 7, a recess 17 is made at the bottom of the sector part 15. The recess 17 can be located in a place that is subject to intense wear by flow. Accordingly, the neck portion 14 comprises a protrusion 18 with a larger wall thickness. In FIG. 7, the protrusion 18 is shown by dashed lines. Thus, the wear section of the passage 16 is formed in the replaceable neck portion 14 to protect against wear of the sector portion 15, since the latter is the most expensive to manufacture. As a result, the service life of the sector part 15 has been increased.

The drawings and the related description are intended only to illustrate an inventive idea. During the implementation of the invention, various changes and modifications are possible without going beyond the scope of protection defined by the claims.

Claims (5)

CLAIM 1. A sector filter disk element comprising at least a sector part (15), having essentially flat opposite sides (6), faces (12) and an end wall (13) connecting the sides (6), and the sides (6), the faces (12) and the end wall (13) limit the empty space, and each side (6) has an essentially triangular shape and contains many holes (7); and the throat part (14), the upper part of which is connected to the sector part (15), and the lower part is equipped with a nozzle (20), which is adapted to be connected to the frame (4) of the disc filter (1), the throat part (14) contains channel (16), through which the internal cavity of the sector part (15) communicates with the frame (4), characterized in that the faces (12) of the sector part (15) form an angle smaller than the corresponding angle of the throat part and equal to essentially 30 °, and the value of the area ratio (А§) of the surface of one side (6) of the sector part (15) to the area (A _k) the internal cross section of the through passage (16) in the pipe (20) is less than or equal to 105. 2. Sectoral element according to claim 1, characterized in that the ratio of the height (b) of the sector element (5), measured from the end wall (13) of the pie part (15) to the lower point of the throat part (14), to the area (AK) the internal cross-section of the passage channel in the pipe (20) is less than or equal to 270 m ^-1 . 3. A sectoral element according to claim 1 or 2, characterized in that the sector part (15) and the throat part (14) are separate elements that can be detachably connected to each other. 4. Sectoral element according to claim 3, characterized in that in the lower part of the sector Ί of part (15) there is a notch (17), and the neck part (14) is provided with a protrusion (18), which corresponds to the notch (17) and forms a section with a greater wall thickness in the region of the passage channel (16). 5. The neck part intended for connection with the sector part (15) of the sector element (5) in the disk filter (1), and the sector part (15) has sides (6) with a surface area (A,) containing a nozzle (20 ), made with the possibility of connection with the frame (4) of the disk filter (1), and the passage channel (16), providing communication of the sector part (15) with the frame (4), characterized in that the passage channel (16) in the throat part (14) is designed in such a way that the ratio of the area (A,) of the surface of one side (6) of the sector part (15) to the area adi (A _k) the internal cross section of the through passage (16) in the pipe is less than or equal to 105.