CZ27130U1 - Multipurpose particle collector - Google Patents

Description

BACKGROUND OF THE INVENTION

Particle scavengers, or impactors, are used in various fields in particular to determine emissions of dust and other solids contained in a liquid medium, i.e., air, gases or liquids.

Presently, particulate traps are usually provided arranged as a hollow cylinder with a central screw or pin, where filter segments are threaded on the central screw or pin. These filter segments are in the form of an annulus, so that they block the free space inside the hollow cylinder and contain passages for the medium. The entire hollow cylinder body with the central screw or pin and the interposed segments is embedded in another cylindrical body as a sheath. The disadvantage of this device is the possibility of only specific dedicated use. This device can only be used to capture fractions of particular particle sizes.

From CZ AO 269316 a cascade impactor is known, consisting of a cascade of impaction stages with at least one nozzle and gradually decreasing nozzle diameter, an end filter and a sealing system. The inlet part comprises the head in which the inlet shaft is located, followed by the impaction steps arranged as superimposed segments in the form of circular plates provided with passages for the medium in the form of circular nozzles. The circular nozzles of the different inserts have different sizes and locations. In the assembled device, these passages are arranged one above the other alternately so that the path of the flowing medium is curved and thus more efficient particle separation is achieved. The individual circular plates are covered with a soft porous impaction pad, perforated according to the size and layout of the nozzles and pressed against the spacer ring. The nozzle projections are distributed symmetrically between the following nozzles. An output member with a hollow conical portion and an outlet channel is provided as an output member. Between the head and the outlet member, the pads with the washers and the pressure rings alternate one above the other and the segments fit together. The whole assembly is connected by two screws, fixed in the head and the outlet member and guided outside along the segments, and is tightened by nuts fastened at the ends of the screws above the inlet head. A considerable disadvantage of this device is the high laboriousness and the associated time consuming, due to the necessity to perforate all washers with precision at the location of the nozzles. Another disadvantage is that unwanted moisture and environmental contamination can enter the impactor if the nuts are loosened or not tightened or the washers become slack or rusted.

The prior art devices have the common disadvantage that they can be used for one purpose, so that at least two devices have to be owned and used, one of which is a sorting or pretreatment device and the other for the total post-treatment.

The essence of the technical solution

The disadvantages of the prior art are largely eliminated by the proposed technical solution. The proposed multipurpose particle trap, for capturing particles from a fluid medium passing therethrough, comprises an inlet head and an outlet member with a hollow conical portion and an outlet channel, wherein interlocking pieces with formed passages for the medium are disposed between the head and the outlet member, of which at least one panel is a screening separation segment known from the prior art, provided with a screen. The essence of the new solution is that at least some of the elements form at least one filter holder and a pressure segment engaging it with a new construction solution described below. The filter holder is in the form of a ring with an inner circular plate, wherein at least two through slots are formed between the ring and the circular plate. This annular plate with residual surfaces adjacent to the through slots forms a filter receiving surface.

-1 CZ 27130 Ul

The pressure segment is in the form of a ring with an inner pressure ring, wherein at least two slots are formed between the ring and the pressure ring, and the slots have the shape, size and location chosen to follow the slots of the filter holder.

In the central part of the proposed particulate trap there is at least one group of components preferably comprising at least one sorting segment provided with circular openings situated in its central part, at least one thrust segment and at least one filter holder, these sorts being arranged in a sequence in the direction of the passage of the medium.

Preferably, the gripper comprises at least two groups of members according to the preceding paragraph. Thus, it preferably comprises groups of panels, each of which is composed of at least one sorting segment, at least one pressing segment and at least one filter holder. Said component types are arranged in succession in each order in the group, considered in the direction of the passage of the medium. For all groups of components included, all filter holders included preferably have filter receiving surfaces of the same circumferential shape and size.

The parts are gastightly fixed thereto, preferably by means of at least one outer tightening nut.

Preferably, all the components are fixed by one common union nut.

By means of the proposed solution, the device is assembled in modular parts preferably comprising passages alternately from slots situated near the peripheral walls of the device located in the filter holder and the pressure segment and circular openings situated in the central part of the device located in the sorting segments .

Advantageously, the assembly of members selected by groups as indicated in the preceding paragraphs is complemented by suitably selected spacer segments. Preferably, there are at least two spacer segments, of which at least one sorting spacer segment at the first sorting interface, between the head and the first pressure segment, and at least one rectifier spacer segment at the input of the output member.

The designed gripper is multipurpose. It is suitable for use as an internal particulate trap within pipes, especially for stationary combustion equipment such as power plant boilers, fossil fuel boilers, foundry smelters, chimneys, exhausts, flares and other industrial exhausts. It is also suitable for monitoring equipment and meters, especially emissions. Its main advantage is the ability to change the filtering ability by regrouping the parts and / or groups of parts as required. It offers the possibility to use uniform standard filters without further modifications. Allows easy handling and quick and easy regrouping. Another advantage is easy maintenance. Parts are replaceable. The device can also be used for extremely aggressive environments. The device allows accurate measurement of particulate emissions and is reliable. It can be used for sorting as well as for final cleaning.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of the assembled exemplary device according to a utility model, and the other figures illustrate the individual parts of the device in approximately the order in which they are positioned in the direction of media passage; Fig. 2 is a cross-sectional view, Fig. 3 of a sorting spacer, in sectional side view, Fig. 4 a top view of the sorting spacer, Fig. 5 a screen for a sorting spacer, in cross-sectional side view, Fig. 6 Fig. 7 shows a pressure segment, in sectional side view, Fig. 8 a top view of the pressure segment, Fig. 9 a filter holder, cross-section as seen from the side, Fig. 10 a top view of a filter holder, Fig. 11 12 shows a top view of a sorting segment, FIG. 13 a rectifying spacer segment, side view, FIG. 14 shows a top view of the sorting segment, FIG. 15, the output member, in cross-section as seen from the side, and FIG. 16, the outer tightening nut, in cross-section as seen from the side.

-2GB 27130 Ul

Example of technical solution

An exemplary embodiment of the invention is a shaped cathode for burning in a liquid according to FIGS. 1 to 16.

The multipurpose particulate trap comprises an inlet end 1 at the inlet end and an outlet member 2 at the outlet end, in which a hollow conical portion 3 and a downstream outlet channel 4 are located therein. Between the head 1 and the outlet member 2 parts with created passages for the medium. A plurality of spacing segments 5,17 are provided, the first of which is a sorting spacing segment 5 provided with an intermediate screen 6. Further, a pressure segment 7 and a filter holder 8 are provided, considered in the direction of the passage of the medium. The filter holder 8 is formed as a ring 9 with an inner circular plate 10, where elongate slots 11 are arranged between the ring 9 and the circular plate 10. This circular plate 10 together with the residual surfaces 12 adjacent to the through slots 11 form a receiving surface for the circular filter. standard structures and dimensions not shown in the figures. The pressure segment 7 fits on the filter holder 8. It is formed as a ring 9 with an inner thrust ring 13, wherein slots 11 are disposed between the ring 9 and the thrust ring 13, following the slots 11 of the filter holder 8.

The filter holder 8 with the pressing segment 7 is located in the central part of the device, where it forms a repeatable triple together with the sorting segment 14. This is provided with circular openings 15 situated in its central part. A plurality of panels comprised of at least one sorting segment 14, at least one thrust segment 7, and at least one filter holder 8 are arranged such that these kinds of panels are arranged sequentially, respectively, in the direction of the passage of the medium. Depending on the need and purpose, one device may be varied structurally in such a way that one, two, or more of these groups are included and, where appropriate, interspersed with spacer segments 5 at appropriate locations.

In the case where the gripper comprises at least two groups of panels, each of which is composed of at least one sorting segment 14, at least one pressing segment 7 and at least one filter holder 8, these kinds of panels being arranged in successive order in each group or in the case that there are several filter holders 8 in a different configuration in the apparatus, all the included filter holders 8 have filter receiving surfaces of the same circumferential shape and size. This has the great advantage that it is possible to use filters of selected different or equal density, having a universal shape and size. A suitable seal, for example silicone rings, may be inserted between some or all of the panels.

All components are then gastightly fixed thereto by a single, common, male union nut 16 with internal thread.

The multipurpose particulate trap is specifically designed to include passages alternately from slots 11 located near the peripheral walls of the apparatus located in the filter holder 8 and the pressure segment 7, and circular openings 15 situated in the central part of the apparatus located in the sorting segments 14 .

The particulate trap according to the preferred embodiment comprises two spacer segments 5, 17. Of which at least one of the aforementioned separation spacer 5 is included at the first sorting interface, between the head 1 and the first pressure segment 7, and at the inlet of the output member 2 is at least one deflection spacer segment 17.

By simply rearranging the components, adding or conversely removing a group of triple-type components as described above, a trap can be used to capture the total concentrations of dust or individual fractions. It is used for screening dust particles in an assembly in which the direction of the particles in the flowing gas is changed below the center to the edges of the trap. This solution allows the use of full circular filters available commercially instead of filter annulus in the case of rearrangement for reverse gas flow, i.e. from edge to center. The number of sorting trays is not theoretically limited, but it affects the size of the trap, the selected size and number of passes and the amount of gas to be sucked through.

-3EN 27130 Ul

Claims (7)

PROTECTION REQUIREMENTS A multipurpose particle trap for capturing particles from a fluid medium passing therethrough, comprising an inlet head (1) and an outlet member (2) with a hollow conical portion (3) and an outlet channel (4), wherein between the head (1) and the outlet member (2) there are stacked interlocking panels with formed passages for the medium, at least one of which forms a sorting spacer (5) provided with a sieve (6), characterized in that at least some of the panels form at least one holder (8) and a pressure segment (7) engaging it, of which the filter holder (8) is in the form of a ring (9) with an inner circular plate (10), wherein at least two through holes are formed between the ring (9) and the circular plate (10). the slots (11) and the annular plate (10) with the residual surfaces (12) adjacent to the through slots (11) form a filter receiving surface, the pressure segment (7) having a a ring (9) with an inner thrust ring (13), wherein at least two slots (11) are formed between the ring (9) and the thrust ring (13) following the slots (11) of the filter holder (8). The multipurpose particulate trap according to claim 1, characterized in that at least one group of parts comprising at least one sorting segment (14) provided with circular openings (15) situated in its central part, at least one thrust segment (14) is located in its central part. 7) and at least one filter holder (8), wherein these kinds of elements are arranged in a sequence in a sequence, respectively, in the direction of the passage of the medium. The multipurpose particulate trap according to claim 2, characterized in that it comprises at least two groups of components, each comprising at least one sorting segment (14), at least one pressing segment (7) and at least one filter holder (8), wherein these kinds of members are arranged in successive order in each group, respectively, in the direction of the passage of the medium, all the filter holders (8) contained therein having filter receiving surfaces of the same circumferential shape and size. The multi-purpose particle trap according to claims 2 and 3, characterized in that the elements are fixed to one another gas-tight by means of at least one outer union nut (16). The multipurpose particle trap according to claim 4, characterized in that all of the components contained therein are fixed by one common clamping nut (16). Multi-purpose particle trap according to claims 3 to 5, characterized in that passages are provided alternately from the slots (11) situated near the peripheral walls of the device located in the filter holder (8) and the pressure segment (7) and the circular openings (15) situated in the central part of the equipment, located in the sorting segments (14). The multipurpose particle trap according to claims 2 and 3, characterized in that at least two spacer segments (5, 17) are provided, of which at least one at least one defining segment (5) between the head (1) and the first pressing segment (7). a sorting spacer segment (5), and at the inlet of the output member (2) at least one rectifier spacer segment (17). 10 drawings -4GB 27130 Ul 0BR.1 -5GB 27130 Ul GIANT. 2 -6GB 27130 Ul GIANT. 3 FIG -7GB 27130 Ul GIANT. 5 GIANT. 6 z :: øfx _K Zr-H - ± Ηίί