RU2611524C1 - Sector element of disk filter - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: sector element of a disk filter comprising two side plates, each plate is made out of permeable porous ceramics, and a center plate out of polymer material. The side plates are rigidly associated with the central plate, wherein each side plate creates cavities in form of channels, at least some of channels is directed radially from external plane of the sector element. The center plate can comprise a cellular construction directed perpendicular to the contact plane of the center plate and any side plate, wherein the cellular construction is hermetically covered at both sides. In preferable case the center plate I made out of polymer material. Some channels can have tangential or concentric direction.

EFFECT: increased strength of the sector element without increasing the ceramic plates thickness and weight.

10 cl, 5 dwg

Description

The invention relates to the field of vacuum disk filters designed to separate liquid and particles suspended in it, and can be used in ore dressing processes.

A disk filter, the operating principle of which is widely known, contains a number of filter disks mounted on a rotating shaft, each of which is formed by several sector elements, each sector element being preferably made of porous permeable ceramic to form an internal cavity. When a sector element passes through a bath with pulp, a vacuum is created inside it, which, together with the capillary effect characteristic of porous ceramics, causes the liquid to seep into the cavity of the sector element, from where it enters the shaft cavity and is removed. During the lifting of the sector element from the bath, a layer of adhering particles remains on its lateral surfaces, which is a dehydrated concentrate - cake, which is cleaned with the help of special scrapers, after which excess pressure of air or water is supplied to the cavity of the sector element in order to clean the pores.

In patent publication RU 2405615 (C1), B01D 33/23, 12/10/2010, a sectorial element of a disk filter is defined, formed by two ceramic plates that have internal cavities for creating a vacuum and suctioning water in the direction of the hollow shaft. A disadvantage of the known solution selected as a prototype of the invention is that, ceteris paribus, such as, for example, the type of ceramic used or the cross section of internal cavities, the mechanical strength of the sector element can only be achieved by increasing the thickness of the plates. Therefore, if it is necessary to use a filter disk of large diameter, requiring the implementation of sector elements with a large radial size, and therefore having greater strength, the thickness of the plates should be significantly increased.

This circumstance leads to a significant increase in the mass of even a dry product, which increases even more when the ceramic is impregnated with water, which, firstly, causes an increased voltage in the area of attachment of the sector element to the shaft, which negatively affects the strength of the sector element as a whole, and secondly , creates significant loads on the shaft, reducing the resource of the entire disk filter, and thirdly, leads to an increase in energy costs of the filtering process. It should be noted that another consequence of the increase in plate thickness is a significant increase in hydraulic resistance in the pores of ceramics, causing a decrease in the pressure drop at the interface, which, in turn, reduces the efficiency of both filtering and cleaning pores.

The objective of the invention is to increase the strength of the sector element without increasing the thickness of the ceramic plates and the resulting negative effects.

To solve this problem, a sector element of a disk filter is proposed, designed to separate the liquid from the particles suspended in it by its absorption through permeable material. The sector element contains two side plates, each of which is made of porous ceramic, and a central plate made of polymeric material. The side plates are rigidly connected to the Central plate, each on its own side with the formation of cavities in the form of channels, at least part of which is essentially radially directed from the outer edge of the sector element.

In the first particular case of the invention, the central plate comprises a honeycomb structure oriented perpendicular to the contact plane of the central plate and any of the side plates, while the honeycomb structure is hermetically closed on both sides.

In a second particular case of the invention, the central plate is made of a polymer porous material.

In a third particular case of the invention, the central plate is made of a waterproof material.

In the fourth particular case of the invention, which also relates to the first, second or third particular cases, the central plate is provided with through holes.

In the fifth particular case of the invention, part of the channels has a substantially tangential or concentric direction.

In the sixth particular case of the invention, at least part of the channels is formed by recesses in the side plate.

In the seventh particular case of the invention, at least part of the channels is formed by recesses in the Central plate.

In the eighth particular case of the invention, at least a portion of the channels is formed by combining the recesses made in the side plate and the recesses made in the central plate.

In the ninth particular case of the invention, the side plates are fixed on both sides of the central plate with glue.

When using the invention, the following technical results are achieved:

- reducing the hydraulic resistance of the pores, providing an increase in the differential pressure at the interface, which allows to increase the efficiency of absorption or injection;

- reducing the load in the area of securing the sector element, which will avoid its premature failure;

- reducing the load on the shaft and other parts of the disk filter, increasing its resource;

- reduction of energy costs for the drive shaft.

Other technical results will be disclosed in the course of further discussion.

The implementation of the invention will be shown in the best embodiments of the invention, which is not a limitation with respect to protected rights, and will be explained with reference to the figures:

FIG. 1 - frontal (with a cut) and profile projection of a sector element of a disk filter;

FIG. 2 - fragments of sector elements in section with different thickness of the Central plate, also illustrating the sixth particular case of the invention;

FIG. 3 is a fragment of a sector element in section with a Central plate containing a honeycomb structure;

FIG. 4 is a fragmentary sectional sectional element made according to a seventh particular case of the invention;

FIG. 5 is a sectional sectional illustration of a sector element in accordance with an eighth particular case of the invention.

A sector filter disk element, a general view of which is shown in FIG. 1, contains two side plates 1, each of which is made of porous permeable ceramic, and a central plate 2 made of a polymeric material. The side plates are rigidly connected to the central plate so that each side plate is located on its side of the central plate, and in the preferred case, such fixing is carried out by gluing, for example, as shown in FIG. 5, where 9 denotes an adhesive layer.

The implementation of the side plates of porous permeable ceramics makes it possible to increase the efficiency of liquid absorption relative to the use of other permeable materials, for example, fabric, since in addition to the artificially created pressure drop at the interface, the action of the pore capillary effect is also observed. The implementation of the Central plate of a polymeric material allows to reduce the weight of the sector element due to the fact that the density of the polymeric material is much lower than the density of the ceramic, while the strength of the polymeric material in bending is quite high due to its elastic properties.

The sector element is attached to the shaft by means of flanges 4, in addition, it is equipped with fittings 3 designed to connect the cavity of the sector element with a vacuum or high pressure source, and through which the filtrate is removed or water or air is supplied to clean the pores.

The side plates 1 have recesses 5 shown, for example, in FIG. 2, which, when combined with the central plate 2, form channels 6 and 7. Part of the channels 6 has a substantially radial direction from the outer edge 8 of the sector element, while the other part of the channels 7 has a substantially tangential or concentric direction. The use of the term “essentially” in this context indicates the general direction of the channels, i.e. some essentially radially directed channels can have a direction slightly different from exactly radial, and some essentially tangentially directed channels can have a direction slightly different from exactly tangential or concentric.

Radial channels make it possible to ensure fluid flow from the periphery of the sector element to the filtrate discharge fittings, and when washing the pores in the opposite direction with minimal hydraulic resistance. Tangential or concentric channels are designed to equalize the pressure between the radial channels in order to prevent water hammer.

As seen in FIG. 2, using central plates of polymer material, it is possible to produce sector elements of different axial and radial sizes without increasing the thickness of the side plates. So, for example, a sector element with an axial size A1 is made using side plates of the same thickness as a sector element with an axial size A2 that is larger than A1.

This advantage becomes especially important in the manufacture of sector elements of specified sizes. In this case, as in other conditions of use of the invention, the implementation of the sector element according to the invention allows the use of thinner and lighter side plates, thereby increasing the filtration efficiency and reducing the energy consumption of the filtering process, and in addition, reducing the load on the shaft and prolonging disk filter resource.

It should be noted that the elastic properties of the polymer material are significantly higher than those inherent in ceramics. This means that under the influence of a bending load, a plate made of a polymeric material will undergo some deformation, thereby weakening the force of impact, and after unloading, it will assume its original shape. A ceramic plate is not subject to deformation, however, when a force exceeds a certain limit, it is destroyed. Thus, when performing the sector element according to the invention, if a sufficient force is applied, the side plate may crack and be destroyed, however, its fragments will remain fixed on the central plate, which avoids damage.

This fact provides another advantage of the invention relative to the prototype: if a crack appears in a known sector element, it almost inevitably leads to its complete destruction, and this, in turn, causes damage to other sector elements and other parts of the disk filter. In the proposed sector element, a crack in the side plate only leads to a decrease in its productivity.

In a preferred embodiment of the invention, a central plate made of a polymeric material comprises a honeycomb structure 10 enclosed between two diaphragms 11, as shown in FIG. 3 and FIG. 1. The honeycomb structure consists of vertical (with respect to the longest size of the honeycomb structure) walls 12 forming a honeycomb, while the diaphragms ensure the tightness of each cell and the entire honeycomb structure as a whole. The honeycomb structure of the central plate is positioned so that its vertical walls are directed perpendicular to the contact plane of the central plate and any of the side plates.

It should be noted that the diaphragms, also made of polymer material, have some flexibility in the direction of voids in the cells. This property of the diaphragms can significantly reduce the strength of a possible hydraulic shock during backwashing, which contributes to an increase in the resource of the sector element. The use of a central plate with a honeycomb structure significantly reduces the weight of the central plate and the sector element, in general, without compromising its strength.

In another particular case of the invention, the central plate is made of a porous polymeric material, which also allows to reduce the weight of the central plate while maintaining its strength characteristics.

FIG. 4 illustrates a particular embodiment of the invention in which channels are formed by recesses in a central plate. This case allows the side plates to be flat, which can be justified on the technological side of the manufacture of ceramic products. In addition, the surface roughness of the polymer plate is significantly lower than that of the ceramic plate, and since in this particular case the channels are formed mainly due to the polymer plate, this solution will slightly reduce the hydraulic resistance of the channels.

In FIG. 5 shows another particular case of the invention in which the channels are formed by combining recesses 5 made in the side plate and recesses 13 made in the central plate. This particular case allows us to find the required balance between the stiffness of the side ceramic plates and the elasticity of the central polymer plate.

It should be noted that in the preferred case of the invention, the center plate is made of a waterproof polymer material, even if a porous polymer material is used. This property allows you to direct all the suction or discharge energy to the side plates, increasing the efficiency of filtration or flushing. At the same time, the center plate may have through holes for equalizing the pressure between both sides of the center plate.

Claims (11)

1. Sector element of a disk filter designed to separate the liquid from particles suspended in it by suction through a permeable material containing two side plates, each of which is made of porous ceramic, and a central plate made of a polymeric material, the side plates are rigidly connected to the Central plate, each on its own side with the formation of cavities in the form of channels, at least part of which is directed essentially radially from the outer edge of the sector element. 2. The sector element according to claim 1, characterized in that the central plate contains a honeycomb structure oriented perpendicular to the contact plane of the central plate and any of the side plates, while the honeycomb structure is hermetically closed on both sides. 3. The sector element according to claim 1, characterized in that the central plate is made of a porous polymer material. 4. The sector element according to claim 1, characterized in that the central plate is made of waterproof material. 5. The sector element according to any one of paragraphs. 1-4, characterized in that the Central plate is provided with through holes. 6. The sector element according to claim 1, characterized in that the part of the channels has a substantially tangential or concentric direction. 7. The sector element according to claim 1, characterized in that at least part of the channels is formed by recesses in the side plate. 8. The sector element according to claim 1, characterized in that at least part of the channels is formed by recesses in the Central plate. 9. The sector element according to claim 1, characterized in that at least a portion of the channels is formed by combining the recesses made in the side plate and the recesses made in the central plate. 10. The sector element according to claim 1, characterized in that the side plates are fixed on both sides of the central plate with glue.

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