CS232491B1 - Multichamber textile filter - Google Patents

Abstract

The filter according to the invention is equipped with a rotary distributor of cleaned and flushing air, the hollow rotor of which separates the filtered and flushing air in the stator and its circular height alternately connects the individual filter chambers on the distributor stator and thus performs the regeneration of the filter fabrics by the counterflow of flushing air. The requirement of rapid rotation of the rotary distributor by the appropriate angle and stopping in the filter chamber is solved in such a way that the gear electric motor drives a swinging movement above the rotor by a segment on which two fingers are placed on a pin. One finger performs idle strokes and the second is driven by an auxiliary wheel with a recess that allows the first finger to reach the working position and thus engage with the rotor and thus perform the working stroke, i.e. that the (circular sector of the rotor rotates above the next filter chamber.

Description

BACKGROUND OF THE INVENTION The present invention relates to a multi-chamber textile air filter, particularly for coal mines, in which the filter fabric regeneration device comprises a rotary air distributor which diverts the cleaned air from the individual filter chambers in the axial direction of the distributor.

In the known rotary manifolds for regenerating filter fabrics of multi-chamber fabric air filters, for example, butterfly valves are used to supply flushing air, or rotary manifolds have a hollow rotor with several orifices that alternately connect the orifices on the stator leading to individual filter chambers.

A common disadvantage of these solutions is that such distributors are suitable for filters that do not have a limited installation height. In the case of filters for underground mines, only a very small height and width are permissible and therefore the filter must be designed in length and, in this case, the known rotary manifolds do not meet this requirement.

The drawbacks of the known rotary manifolds of multi-chamber textile filters are eliminated by the rotary manifold of the cleaned and flushed air according to the invention, which consists in that the inner space of the manifold stator arranged in the axial filter axis is divided by the rotor air.

This is provided by a hollow cylinder-shaped rotor, in the cavity of which a circular sector is arranged and rotates on the stator shaft. The entire internal rotor manhole outside the circular sectors is used for the discharge of cleaned air through the outlet of the stator.

The space between the outer wall of the rotor and the inner wall of the stator in the form of an annulus is. used for supplying flushing air entering the stator throat. With an intermittent rotary motion of the rotor, the circular segment allows the flushing air to gradually enter through the openings in the stator into the adjacent individual filter chambers.

The requirement for rapid intermittent movement of the circular sector of the rotor by the appropriate angle and its position in the filter chamber for its countercurrent regeneration is resolved so that the drive mechanism located on the rotor shaft above the distributor axis controls its free-pivoting two-inch segment on the pin.

The first thumb, the auxiliary, rotates a selected angle by a freely supported auxiliary wheel having circumferentially disposed eyepieces and a disc with a recess at the side. The second thumb, working, provided with a pin, is lifted by this wheel of the auxiliary wheel so that its rocking movements are reactive.

When the auxiliary wheel is rotated, for example by 360 °, and a recess is made on the disc at this point, the work thumb pin drops into the recess and allows the thumb to rotate the fixed wheel by an angle and hence the rotor the drive train and the distributor rotor are fixed to the shaft. For a longer time, the working thumb then performs idle movements again before the auxiliary wheel rotates by a selected angle (360 °) and thereby engages the working thumb with the fixed fixed wheel of the distributor rotor.

The advantages of this rotary distributor according to the invention are that the use thereof does not increase the construction height of the filter, especially the filter for underground mines. Furthermore, the actual space of the manifold is perfectly utilized, because almost the entire cross-section of the manifold serves also for the discharge of purified air and the rotor with circular sectors does not interfere with the flushing air.

Moreover, the rotary manifold according to the invention is suitable for high-performance filters, since the known rotary manifolds already come out too large and complex.

The multi-chamber textile filter with a rotary distributor according to the invention is shown in the accompanying drawings, in which Fig. 1 is a perspective view of a rotary distributor with a drive mechanism, Fig. 2 shows a rotor of a rotary distributor in axonometry; Fig. 4 is a side sectional view of the rotor of the rotary distributor, Fig. 5 is a schematic view of the rotary distributor with its drive train, and Fig. 6 is a vertical section of Fig. 5.

In FIG. 1, the rotor 1 and the stator 2 of the rotary manifold are shown in axonometry, the fiotor 1 being formed by a hollow cylindrical body in which a circular sector 2 is arranged and which is rotatable on the stator shaft 6.

It connects the individual filter chambers that end on the stator and the holes g. Above each hole and on the stator 2, the rotor 1 with a sector of arc 2 stands for some time to regenerate the filter cloth in the respective filter chamber and rotates the rotor 1 quickly over the next hole on stator 2 ·

In the filter chambers, the cleaned air passes through the holes g on the stator 2 and does not prevent its passage, only the circular sector 2 of the rotor 1, which, however, regenerates the respective filter chamber by countercurrent of the air.

Intermittent movement of the rotor 1 provides a mechanism located on the shaft & rotor 1 · The shaft of the stator i carries the hollow shaft g of the rotor 1. The rod X, driven by an electric motor (not shown), performs a rocking motion. in which the fingers 2 and 10 are freely supported.

The auxiliary thumb 10 rotates the auxiliary wheel 11 and performs one stroke of the auxiliary wheel 11 at each swing of the drawbar X. On the auxiliary wheel 11. is a disc with a recess 12 into which the working pin 13 of the working thumb 2 engages during the working stroke 2 *

If the pin 13 is not in the recess 12 of the auxiliary wheel disc 11, only reactive strokes are carried out by the working thumb 2. If the auxiliary wheel 11 is rotated 360 ° under the action of the auxiliary thumb 10, the pin 13 engages in the recess 12 of the auxiliary wheel disc U, the working thumb 2 ⁸ engages with the fixed wheel 14. the respective filter chamber, that is, above the next opening g of the stator 2 ·

A stop 19 is provided on the segment 17 so that the freely rotatable fingers 2 β 10 on the pin g can rotate the eyelets 18.

In FIG. 2, the distributor rotor 1 is undistorted in axonometry. A purge air flows into the stator 2 of the manifold 2 through a circular segment. The cross-section through which the flushing air passes is hatched.

In FIG. 3, the distributor rotor 1 and the stator 2 are shown in cross-section. The purge air for regenerating the filter substances enters the stator 2 through the throat 15 and through the opening 1g into the circular sector 2 of the rotor 1.

Flushing air flows from the circular sector 2 through the opening g of the stator 2 to the respective filter chamber, which it regenerates. Fig. 4, which is a cross-section A-A of Fig. 3, shows the direction of flushing air: a circular sector 2 flows from the stator neck 15 through the stator 2 and rotates in the stator 2 at regular intervals.

The flushing air passage is shown in Figures 2, 3 and 4 '. It can be seen in FIG. 4 that the flushing air in the stator 2 is guided on the outer periphery around the rotor χ. This is so that the hole in the circular sector 2 of the rotor X that is rotating reaches all the holes g of the stator 2, which are located all over its periphery.

FIG. 5 is a schematic view of the rotary distributor 1 with its drive mechanism. The flushing air flows from the neck 15 of the stator 6 to the annular segment 6 of the rotor 1 and from there passes through an opening 6 in the stator 2.

The cleaned air from the filter passes through the remaining openings 4 into the hollow rotor 1 and passes through it into the outlet opening 26 of the stator 2.

Fig. 6, which is a vertical section of Fig. 5, shows the connection of the fixed wheel 54 to the pitch of the rotor 6 and the freely rotating auxiliary wheel 11. The drive mechanism is shown here in section.

Claims (2)

Multi-chamber fabric filter for counter-current purification and equipped with a rotary manifold of cleaned and flushed air, characterized in that a shaft (6) of the rotor (1) in whose cavity is rotatably mounted on a shaft (4) of the rotary radiator (4) an annular elevator (3) is provided, wherein the rotor (1) is in the axial direction closely adjacent to the holes (5) on the stator (2) and is located concentrically in the stator (2). A multi-chamber textile filter according to claim 1, characterized in that the rotor drive means (1) located above the axis of the stator (2) have a link (7) connected to a segment (17) on which the stop (19) is formed. the working thumb (9) with the pin (13) for the respective fixed wheel (14) and the auxiliary thumb (10) for the respective auxiliary wheel (11) having a a disc with a recess (12) is formed on the side, and the wheels (14) and (11) are provided with pads (18).