DE927810C - Backwashable fine filter for liquids or gases - Google Patents

Description

Backwashable fine filter for liquids or gases Fine filter for liquids or gases are known in many designs. The filter cartridges usually consist of wire mesh, felt discs, cotton tubes, and paper or the like. The filter is cleaned either by replacing the unusable used or by washing the same. The use must be expanded here which means a business interruption. To avoid this inconvenience filters have already been installed in which, by turning the filter insert, I which consists of discs placed on top of one another, cleaning during operation can take place automatically.

However, these filters can only be used as fine filters with restrictions. For many purposes, especially for filtering engine oil and Fuel, it is necessary to remove threadbare residues from the finest filters, that a high quality filtered material is obtained.

There are also filters for liquids with a rotatable filter insert or housing known, in which the cleaning of the filter by backflow of already cleaned medium through the filter, for example via a backwash nozzle, he follows. But also with these filter devices the need arose the backflushing depends as much as possible on the degree of soiling of the filter and to provide an automatic regulation for this. To achieve this, a method and device for backwashing filters is also known, in which the strength of the backwash flow through one under the influence of the outflowing Rinsing liquid standing control element is regulated automatically. Of the Control process is based on an automatic measurement of the return flow, with the same either is kept constant or fluctuates between two limit values, which is the disadvantage has that an exact adaptation to the respective degree of pollution is not possible is. In addition, this device has the disadvantage that a cleaning of the filter by backwashing only takes place when the filter is at a standstill.

In another known filter device with an automatic The return flow of filtered liquid is regulated, the return flow rate is regulated from an organ, which depends on the pressure of the uncleaned medium works, but the return flow rate is not increased; rather escapes part of the unpurified medium bypassing the filter into the stream of the purified Medium, which calls into question the quality of the filtering and the intensity the cleaning falls off.

In addition, this device also has the disadvantage that the backflow does not take place continuously, but only when the filter is at a standstill in action occurs.

In contrast, it is the object of the invention to provide a very fine filter for liquids or to create gases with a rotatable filter element or housing that operates automatically and cleans without interrupting the filtering process in such a way that the filtered medium meets the highest demands. The invention is based on the premise from that the cleaning of the filter insert in a known manner by backflow of already cleaned medium is carried out through the filter insert, with the return flow rate is adjustable.

The essential feature of the invention is that at such a filter regulating the through a known nozzle-shaped slot directed backflow depending on the pressure of the uncleaned medium takes place in such a way that a spring-loaded valve connected downstream of the filter insert is provided, the spindle has a piston on which the pressure of the uncleaned Medium acts.

Another feature of the invention is that the relative movement between the filter insert and the nozzle by a device driven by the medium, such as a wing or the like. Is effected.

The invention can also be modified in that at Liquid filters the filter is arranged so that the nozzle is on top and with Part of the gaseous medium is conveyed with the liquid due to the buoyancy flows back through the nozzle and cleans the filter element, or that with gas filters the filter is arranged so that the nozzle is at the bottom and with Part of the liquid is carried along with the gas, which due to its gravity is carried through the nozzle flows back and cleans the filter element.

The arrangement according to the invention has compared to the known devices the advantage that the control of the return flow rate depending on the pressure of the unpurified Medium takes place automatically in such a way that with increasing pressure of the Medium increases the return flow rate until the pressure is down to its original level Value has decreased. This makes cleaning the filter very effective achieved.

The regulating element of the filter can perform the task of regulating the pressure of the Medium, as is necessary, for example, with engines, so that the control device provided for this is no longer necessary. How the filter works meets the highest requirements, so that, for example, engine oil from coal and Resin is completely freed, which means that it can be used for a much longer period of time of the oil results. Even fuel filtered through this filter shows very good results Properties.

An exemplary embodiment of the invention is shown schematically in the drawing shown. It shows Fig. 1 a vertical longitudinal section through a filter for Engine oil and FIG. 2 a section along the line II-II in FIG. 1.

The ultra-fine filter according to the invention consists according to the figures the housing 1, the two covers 2, 3, the cage 4, in the entire perimeter narrow column 5 are incorporated, the filter element 6 made of the finest fabric, cotton, Cotton wool or the like and Idem control element 7. The filter insert sits inside the above with a plate 8 closed cage and is in this through the drainage port 9, which is fastened to the filter cage 4 by means of a nut 10. The drainage nozzle 9 extends into the lower collecting space 11 of the filter, from which the filtered medium flows off through line I2. The outflowing 01 also serves to control the filter insert 6 or to rotate this with the cage 4 and the drainage nozzle 9 to this one save special drive device. For this purpose, the line 12 is a Wing 13 or the like. Installed, which sits on a worm shaft 14, which is in a In the circumference of the drainage connection 9 incised worm 15 engages.

The opposite end of the line 12 is through a nut 16 mounted glass plate 17 closed, through which the rotary movement of the worm shaft 14 can be observed.

In addition to the filter insert 6 is coaxial to this in a special one In the housing 1 inserted valve housing 18, the control member 7 is arranged, the consists of a valve 20 loaded by a spring 19, the spindle of which is free The end is provided with a piston 2I. The latter has the same diameter as that Valve opening 22 and we, d by the pressure of the hole 23 on the cover 2 charged medium, for which a branch 24 is led to the piston 21. As a result of this training, the pressures on the control element 7 rise within the room 27 on. The tension of the spring 19 can be regulated by washers 25, so that thereby the amount of through, the valve 20 and the opening 26 flowing cleaning current depending on the pressure in front of the filter insert 6 adjustable i.st. The regulating element 7 can simultaneously perform the task of regulating the pressure of the oil, for which there is a special control device for engines, usually a Overflow valve, is necessary, so that this is saved. As a connection between the filter insert 6 and the space 27 of the control element 7 is a nozzle-shaped one Slot 28 in the housing 18. The gap 5 located in the vicinity of this slot 28 are covered by a nose 29, which is provided on the cover 2 and prevents that the medium flowing in through the bore 23 passes directly through the column 5 and the nozzle-shaped slot 28 can flow away.

The way the filter works is as follows: The engine oil that has not been added enters the filter housing through the bore 23, flows through the cage 4 or its column 5 and the filter element 6 in the interior of the same and from there through the drain connection g .in the line I2, at the same time the wing I3 drives and thus the filter insert 6 with the cage 4 and the drain port g turns. On the way through the filter insert it is cleaned in the known way, The protective parts remain on this and are removed again in a suitable manner Need to become. This happens because part of the purified oil is known Way through the filter element 6 flows back. This backflow occurs through the column 5, which are located in the vicinity of the nozzle-shaped slot 28 through the slot 28 and through the opening 22 through the valve disk 20 as a result of the oil pressure on the piston 21 is released. This backflow only the external atmospheric pressure and the tension of the spring 19 counteract, so that when the filter element 6 is more dirty, it rises higher Oil pressure of the valve plate 20 increased further and thus the return flow rate and the Effect of cleaning becomes greater.

The cleaning effect of the filter insert 6 can be carried out in a known manner can be increased by increasing or increasing the amount of oil flowing back given return flow a large number of columns 5 on a small nozzle-shaped Slot 28 passes by. Column 5 and slot 28 must, however, according to the expected Dirt particles are measured. The control element 7 can also be dispensed with, if the nozzle-shaped slot 28 is formed as such, which is then advantageous is when coarse-grained substances are to be filtered or when only a small one is on the filter There is overpressure in relation to the atmosphere. However, it must be the case with all versions care must be taken that the column 5 and the nozzle-shaped slot 28 are dimensioned so are that the return flow velocity of the medium is greater than a multiple the speed at which the uncleaned medium is filtered through the filter element flows to ensure proper cleaning.

For liquids to be filtered that contain air, e.g. B. Motor oil and fuel, you can ventilate at the same time -that you have what is shown The filter is arranged so that the nozzle-shaped slot 28 comes to lie horizontally at the top. During the filtering process, the air that rises from the buoyancy escapes the slot 28 and pulls out the dirt together with the oil flowing back the filter element 6 with continued. With special filters you can see this fact evaluate that liquid filters constantly produce a small amount of gaseous Medium promoted so that only this is effective as a return medium. Here the space 27 is expediently made large in order to clean it from dirt from time to time to be able to. In the case of filters for a gaseous medium, a Part of the liquid are also conveyed, which serves as a return medium. The filter is in this case in the opposite way, i.e. H. with a nozzle-shaped one lying horizontally at the bottom To arrange slot 28.

The filter can also be designed so that the inflow of to cleaning medium takes place in the interior of the filter insert 6, then also the nozzle-shaped slot 28 and the control element 7 must be arranged inside. at Media with very low pressures can reduce the cleaning effect of the filter element be strengthened by allowing a small vacuum to act on space 27. For special purposes it can be advantageous to connect several filters one after the other, in which case the return flow of the previous filter is the inflow of the following is.

Instead of the relative movement between the filter insert 6 and the cage 4 and the nozzle-shaped slot 28 by rotating the former, these can also stand still and the housing 18 with the nozzle-shaped slot the columns 5 are moved past.

Claims (5)

PATENT CLAIMS: I. Backwashable fine filter for liquids or gases with rotatable filter insert or housing, with Idem the cleaning of the. Filter insert by backflow of already cleaned medium through the filter insert takes place and the return flow can be regulated, characterized in that the control depending on the amount of return flow passed through a known nozzle-shaped slot from the pressure of the uncleaned medium takes place automatically in such a way that the filter insert (6) downstream, spring-loaded.s valve (20) is provided, the spindle of which has a piston (2I) on which the pressure of the unpurified medium acts. 2. Fine filter according to claim I, characterized in that the Relative movement between filter insert (6) and nozzle (28) through one of the medium powered device (I3), e.g. B. wings od. Like. Is effected. 3. Fine filter according to claims I and z, characterized in that that in the case of liquid filters, the filter is arranged so that the nozzle (28) is at the top and a part of the gaseous medium is conveyed with the liquid, which due to its buoyancy flows back through the nozzle (28) and the cleaning of the Filter insert (6) causes. 4. fine filter according to claims 1 and 2, characterized in that that in the case of gas filters, the filter is arranged so that the nozzle (28) is at the bottom and a part of the liquid is carried along with the gas, which, as a result of its density, passes through the nozzle (28) flows back and effects the cleaning of the filter insert (6). 5. Fine filter according to claims I and 2, characterized in that that two or more filters are connected in series, with the return flow of the preceding is the influx of the following. Attached publications: German patent specifications No: 349 79I, 569 467 597 254.