CS213351B2 - Filtration column with large number of filtration slots - Google Patents

Description

After the liquid and particulate mixture has dropped to the top of the column, the gas flow through the slits of those portions of the column protruding from the liquid into the interior of the filter column and as a result decreases the pressure drop between the filter interior and the filter column. means a reduction in filter driving force and filtration rate. In this case, the liquid remaining in the filter is removed by interrupting the flow through those filter collars which partially protrude from the liquid, resulting in filtration through those columns which are lower in the filter and are completely immersed in the mixture of liquid and solids. of particles. The decommissioning of the columns exposed in the upper part is very disadvantageous, since this reduces the total filtration area in the filter and its yield.

The purpose of the invention is to provide filter columns in which this defect is largely eliminated.

The principle of the invention consists in that the filter wheel is provided with spherical closures located between the profile rings of the filter column. Closures consisting of spheres and ring rings form ball bearings and at the same time divide the filter column into several parts. The closures are opened and closed by a movable pin which is provided with arms acting on the balls. The arms may lie in vertical planes and form an angle of about 90 °; in this case, the pin performs a rotary movement. The arms may also lie in a vertical plane and then perform the pivot movement by moving it vertically.

The annular rings of the closure are profiled with a slope towards the central opening. In this way, the opening of the ball is always guaranteed to be freely movable, i.e. not supported from below.

The ring rings of the caps may also be flat and provided with stops provided on the ring rings that restrict the movement of the ball. The stops embrace the balls freely so that the balls can be lifted and can make little horizontal movement. The hole made up of a spherical bowl does not have to be centered, but for manufacturing reasons, the center finish is the easiest solution to recommend.

The ring rings of the caps have the same outer diameter as the outer plates of the filter column or as the profile rings forming the filter slots. In the first case, the annular rings have holes for the passage of screws which connect the assembly composed of profile rings and at the same time serve as adjusting rings.

The inner diameter of the ring should be smaller than the diameter of the spheres used and is preferably Ϋ4 to Ϋ2 of the inner diameter of the filter unit.

The filter column according to the invention allows the flow of the individual portions of the filter column which lies above the closures to be simple. interrupt or enable the movable pin. This results in a simplified filter design and allows automation of its operation. During this periodic filtration, the maximum filtration area for the given liquid level in the filter is maintained.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows a filter column with two ball shutters that open and close with a sliding pin, and FIG. 2 shows a filter column with two shutters that open and close. pivot pin.

The filter column shown in FIG. 1 consists of the same cylindrical elements composed of profile rings 1, with a central fluid flow channel and with filter slots on the periphery. Between the profile rings 1 there are provided spherical closures, consisting of spheres 3 and annular rings 2, which form spherical bowls for spheres 3. The caps are opened and closed by pins

4. The pin 4 is provided with arms 5 acting on the balls 3. The arms 5 lie in a vertical plane and the pin 4 moves along the axis of the filtering column as indicated by the arrows in Fig. 1. the central opening of the closure. The annular rings 2 have the same outer diameter as the outer diameter de ^; sky filtration columns. The inner diameter of the circular rings 2 is ¥ 2 of the filter column diameter.

The filter column shown in FIG. 2 has spherical closures between the profile rings 1, consisting of annular rings 2 and spheres 3 on which the pin 4 acts by means of the arms 5. The pin 4 rotates in this case. The arms 5 lie in vertical planes that are perpendicular to each other.

The annular rings 2 are profiled with an inclination towards the central opening. The ring rings 2 have the same outer diameter as the outer plates of the filter unit. The inner diameter of the circular rings 2 is ^x průměru of the filter column diameter.

A movable pin 4 for opening and closing the closure passes through the matching holes in the closure rings. Through the arms 5 fixed thereon acts on pin 4 of a bottom 3 of the ball ¹ enclosing the spherical cap and the bowl during lifting balls 3 to open the lock. The movement of the pin 4 can be done either by moving up and down or by pivoting the pin 4 and depending on the type of movement the arms 5 are profiled. Depending on the position of the pin 4, the flow of successive portions of the filter column, which lies above the cap, is then closed. By properly moving the pin 4 and appropriately selecting the dimensions of its arms 5, the shutters can be closed alternately from the bottom of the filter column upwards or vice versa from the top of the filter column down, or all can be closed or opened.

In the embodiment shown in FIG. 1, the number of shutters is not limited in construction and can practically be from 1 to 10. In the embodiment of FIG. 2, the number of shutters is limited to a maximum of 3 because the arms 5 lie in vertical planes that are perpendicular to each other. The auxiliary arms, which are flush in one plane, serve to simultaneously open all shutters.

Claims (6)

1. A filter column having a plurality of filter slits, consisting of the same elements assembled in the form of a cylindrical body of profile rings, with a central channel for the flow of liquid and with filter slits on the periphery, intended to be operated vertically; the profile rings (1j are provided with spherical closures consisting of ring rings (2J) and balls (3J), the ring rings (2) and balls (3) being movable to the opening and closing positions by a movable pin (4j provided with arms (5J) cooperating with balls (3). Filter column according to claim 1, characterized in that the legs (5j) lie in vertical planes and form an angle of approximately 90 ° to each other, the pin (4) being rotatable. ynAlezu Filter column according to claim 1, characterized in that the arms (51) lie in a vertical plane and the pin (4) is ₍ movable in a vertical direction). Filter column according to claim 1 or 2 or 3, characterized in that the annular rings (2) are profiled with an inclination towards the closure. Filter column according to claim 1 or 2 or 3, characterized in that the annular rings (2) have the same outer diameter as the outer plates of the filter column or as the profile rings (1) forming the slots. 6. The filtration column according to claim 4, wherein the inner diameter of the annular ring (2) is% to Ϋ2 of the inner diameter of the filter column. 2 sheets of drawings