DE2545684C3 - Backwash plate filter - Google Patents

Description

The invention relates to a backwash gap filter for removing solids in gases with the Features of the preamble of claim 1.

The filter is particularly suitable for sampling for automatic process analytical equipment with the gaseous or liquid sample to get rid of the contained solids as well as for ^M separation of solids in the gas or liquid phase at production facilities. Such solids are z. B. dust, granules or fibrous particles. In the analytical monitoring of gases, it is essential that the gas flow is cleaned beforehand, that is, it is freed from solid components. Otherwise considerable malfunctions - especially with continuously measuring automatic analyzers - could occur. In addition, the devices require frequent maintenance. «>

A number of different continuous or discontinuous filter processes are used to clean gas streams. Filters include filters with sieves, nets, etc. Such filters usually have to be dismantled for cleaning. This means a ·> * considerable expenditure of time and personnel. A solution to the problem are filter belt devices, whereby the technical effort increases considerably Backwash filters are becoming increasingly popular used Up to now, these filters were preferred for the large-scale treatment of water

Self-cleaning filters for analysis devices have recently been offered commercially. In one embodiment, a bypass flow is used Removal of the deposited dirt achieved (self-cleaning analyzer filter for liquids and Gas from Bühler & Co.).

Most of the continuously measuring, automatic ones Analysis devices are sensitive to contamination of the measuring system caused by solid substances can be. Numerous gas sampling probes are available from various manufacturers for this purpose To remove impurities from the measuring gas (e.g. H. Karthaus. H. Engelhardt, Physikalische Gas analysis, fundamentals, publication L 3410 from Hartmann & Braun AG, Frankfurt, 1971, p. 7/8, p. 82/105, and Siemens pocket book for measurement and control in heat and chemical technology, Munich, 1962). Ceramic filters are predominantly used today inside or outside an exhaust chimney (A. Naumann, extraction technology and other requirements for the successful use of Analysis devices, VDI reports No. 97, 1966, p. 39/49). These filters are designed to filter out soot flakes and coarse dust particles. After that, the gas usually has to be dried and has been finely filtered. These gas sampling devices and additional units have only a limited service life due to clogging, etc. and are therefore maintenance active. Qualified maintenance personnel are required to monitor the system.

In DE-OS 15 36 896 and in US-PS 20 68 282 Riter are described in which the filter element consists of a metal spiral. In both cases, the Variable pitch of the spiral. However, there is no provision for adjustment during operation. That being said, these filters are designed to filter liquids and therefore as Gasentnahmcstv'de for the above specified purposes not usable.

The invention is based on the task of reducing the maintenance of filters in emissions and Operational analysis devices for the separation of solids (dust, granules, fibers, soot) in gas flows to reduce.

This object is achieved according to the invention in the backwash gap filter described above in that one side of the helix is attached to the end face of an outer tube and the other side is attached via an end plate to an inner tube that is concentrically arranged in the outer tube and displaceable in the axial direction Inner tube is provided with openings in the area of the coil and is sealed against the outer tube by means of sliding seals or a bellows and that means are available to move the inner tube axially in the outer tube and thus the pitch of the coil during operation between the limits hmin < h <hmtx to change.

According to an expedient development of the invention, a three-way valve is arranged at the outlet for the filtered gas, which is controlled so that the outlet is connected in position h _m " (largest slot width of the coil) to an inlet for a flushing medium

The coil preferably consists of an elastic material and has a spring characteristic.

The means for adjusting the pitch ft advantageously consist of a compressed air ring piston,

The compressed air ring piston transmits its movement to the moving pipe, it must be ensured that that the guides of the movable pipe are sealed against outside air. These seals are expediently designed as a sliding seal. Seals made from consist of a bellows. The annular piston can also be replaced by a double-acting pressure piston which is firmly connected to the movable pipe.

The filter according to the invention has the advantage that it is less susceptible to solid deposits. The ease of cleaning without having to dismantle the filter is of particular importance. For cleaning, the filter is simply rinsed back while the coil is pulled apart at the same time. The cleaning is further improved in that the turns of the coil are alternately hit one another and pulled apart. Any stubborn dirt is broken up and washed away. Another advantage is that the degree of separation of the filter can be adjusted by changing the pitch h (pitch). This setting is made from the outside by means of the compressed air piston, without changing anything on the filter construction itself. In contrast to this, with conventional sieve and slot filters, the degree of separation is fixed by the mesh size.

An embodiment of the invention is shown in the drawings and will be described in more detail below described. It shows

Fig. 1 shows a gas sampling probe on the basis of a Wendelrijckspülfilters with normal filter operation and

F i g. 2 the same gas sampling probe during backwashing.

Experience has shown that cleaning a filter yourself is a difficult problem. A sieve, net or similar can only be cleaned or cleaned with the greatest possible force in order to be able to guarantee safe work for a longer period of time. The part to be cleaned should therefore be as robust as possible. A helix 1 can meet these conditions. It is preferably made of high-alloy steels that are corrosion-resistant to the gas flows, optionally provided with a plastic coating. The filter can be cleaned by pulling the coil 1 apart and backwashing it with a rinsing medium free of solids; will. An additional backwash cleaning effect can be achieved by striking the helix once or several times. In the compressed state h _m , “ there are only small spaces between the individual turns 16 of the helix 1 for filtering the gas flow (0.01-0.1 mm).

The uncleaned exhaust gas flows continuously past the filter. The sampling probe is brought directly into the exhaust gas flow with a flange cover 17 at a suitable opening (flange) of a chimney. The helix 1 is rigidly connected to a guide tube 18. The other side of the guide tube 18 is fastened to the flange cover 17. An end plate 19 serves to terminate the helix 1. This gas sampling tube 20 is movably supported in the guide tube 18 with two gas-tight guide rings 21 and 22 in the direction of its axis the inside of the gas intake pipe. To remove the gas cleaned from the coil, it is pumped out with a pump pm outlet 23 via the three-way valve 24 through the Guseninahmerrohr 20. For the purpose of filtration, the helix 1 is almost completely compressed (position h _m j "). When a helical spring is used, it is relaxed.Through the slots between the individual turns 16 of the helix 1, some exhaust gas is sucked in as a result of the negative pressure and cleaned in the process. All larger particles of the exhaust gas (e.g. dust, soot, etc.) held back. The efficiency, ie the proportion of retained solids, can be adjusted to a certain extent by changing the distance between the coils.

Depending on the degree of pollution of the exhaust gas, the slots become blocked after a while. To clean the slots, the helix t is pulled apart and backwashed with scavenging air. For this purpose, the two-way valve 25 in the compressed air supply 26 is opened. As a result, the compressed air piston 27 rigidly connected to the guide tube 20 is displaced and the helix I is expanded (position h _mix ). At the same time, the three-way valve 24 switches over and acts

■ »5 the coil 1 with purge air 28. By single or releasing the helical spring several times (i.e. switching off the compressed air with the two-way valve 25) the individual turns 16 of the helix 1 collide and loosen and possibly crush residual solids present. In the case of a coil without spring action, this can be done with a second, oppositely acting compressed air pistons can be achieved. After backwashing, the Compressed air with the two-way valve 25 and the purge air : nit iJerii three-way valve 24 switched off.

1 sheet of drawings

Claims (4)

Patent claims: 1. Backwash gap filter for removing solid fractions in gases, especially for installation in gas sampling probes, consisting of a helical helix, whereby the slots between the individual windings act as a sieve for the gas and the slot width (pitch h of the helix) by pulling apart or Compression of the coil is adjustable, characterized in that one side of the coil (1) on the end face of an outer tube (18) and the other side via an end plate (19) on a concentric in the outer tube (18) » 5 arranged, axially displaceable inner tube (20) is attached, that the inner tube (20) is provided with openings (20a) in the area of the helix (1) and opposite the outer tube (18) by means of sliding seals (11) or a 2 "Bellows" is sealed and that means are available to move the inner tube (20) axially in the outer tube (18) and thus the pitch of the helix (1) during operation between to change the limits hma <h <h "ax . 2. Filter according to claim 1, characterized in that a three-way cock (12, 24) is arranged at the outlet for the filtered gas, which is controlled so that the outlet is in position / w, (largest slot width of the helix) is connected to an inlet (15, 28) ^M for a flushing medium. 3. Filter according to claim 1 to 2, characterized in that the helix (1) consists of one elastic material and has a spring characteristic. 4. Filter according to claim 1 to 3, characterized in that the means for adjusting the pitch (h) consist of a compressed air ring piston (7, 8, 27). 40