DE3909402A1 - Filter for gaseous media - Google Patents

Abstract

A filter for flowable media comprises a filter housing, an exchangeable filter element enclosed by the filter housing and includes inlet and outlet ducts on the housing for the medium to be filtered and a discharge orifice on the housing for the removal of separated-off foreign materials. On the filter housing are provided two opposite connection flanges which correspond together and at which the inlet and outlet ducts open. The connection flanges permit a plurality of filters to be connected in series. Coupling caps having inlet or outlet orifices can be connected to the connection flanges of at least two filter housings arranged side by side, which coupling caps permit at least two filters to be connected in parallel.

Description

The invention relates to a filter for fluids, in particular gas shaped media, e.g. Compressed air, with a filter housing, with a replaceable filter enclosed by the filter housing element, with inlet and outlet channels on the housing for the fil medium and with a disposal opening on the housing for the removal of separated foreign substances.

Such filters have when designed for greater performance are a significant size and are therefore in terms of their maintenance and disposal are rather unwieldy. You could remember to achieve greater filter performance to connect several small filters side by side or in series, each however, this requires an undesirably high line and Ab sealing effort, so far from this possibility was hardly used.

It is an object of the invention to provide a generic filter improve that multiple units this easily Filters can be connected in series and side by side.  

The object is achieved in that the filter housing two opposite each other matching connecting flanges are provided on which the inputs and outlet ducts open and open, and the connecting flanges allow a series connection of several filters, and that with the connecting flanges at least two side by side orderly filter housing connectable coupling caps with or outlet openings are provided, and the coupling caps Allow at least two filters to be connected in series.

The following description of preferred embodiments of the The invention is used in conjunction with the accompanying drawing further explanation. Show it:

FIG. 1 shows a filter in perspective view;

Fig. 2 shows schematically the internal structure and the mode of operation of the filter from Fig. 1;

Fig. 3 two filters connected in parallel by coupling caps in a diagrammatic view;

Fig. 4 is a perspective view of a clutch cap;

Fig. 5 is a sectional view taken along line 5-5 in Fig. 4;

Fig. 6 shows a simultaneous series and side-by-side connection of several filters and

Fig. 7 schematically shows two filters connected in series of the type shown in Fig. 1 with changeover valves.

As apparent from FIGS. 1 and 2, a filter 1 comprises a filter housing, which in turn consists of two parts, namely a housing head 2 and a bell 3 body. The housing bell 3 is screwed into the housing head from below by means of a thread 4 and is therefore detachably connected to it. Bores 5 at the lower end of the bell housing 3 are used to insert a tool to rotate the bell 3 relative to the head 2 . A seal 6 is inserted between the housing head 2 and the housing bell 3 .

The housing head 2 has two mutually opposite, mutually parallel aligned, mutually corresponding, that is, the same connection flanges 7 , 8 , on which inlet and outlet channels 9 , 10 open or open. As can best be seen from the schematic representation of FIG. 2, the inlet duct 9 leads into the interior of a filter candle 12 , which is sealed in a known manner by means of a rod 11 on the housing head 2 and is sealed on its underside, which represents a filter insert which can be released. The outlet channel 10 is separated from the inlet channel 9 by a wall 13 of the housing head 2 and the filter candle 12 . The arrows drawn in FIG. 2 show the flow profile of a gaseous medium to be filtered, for example oil-containing compressed air. The medium flows from the inlet channel 9 into the interior of the filter candle 12 and passes through the filter material forming the walls of this candle material. Solid and liquid foreign components of the medium are separated on the filter candle 12 . The filtered medium emerges on the outside of the filter candle and flows out via the outlet channel 10 . Separated liquid Fremdbe constituents, for example oil or condensed water, are guided by the flow of the medium to the outside of the filter candle 12 and drip there onto a bottom 14 of the filter bell 3 . A conventional float valve 16 is arranged in a central disposal opening 15 of the base 14 and opens when a sufficient amount of liquid has accumulated on the base 14 . The outflowing liquid is collected in a vessel (not shown). Usually, the float valve 16 is also provided with a disposal screw, so that liquid can also be drained if necessary, if the amount of the float valve 16 is not sufficient to open it.

. The filter 1 according to Figures 1 and 2 can tung in reverse Rich - flow through - in the dust filtration for example. In this case, swap inlet and outlet channels 9 , 10 their roles and the filter element (filter candle 12 ) is flowed through from the outside in NEN, so that foreign substances in the outer region of the filter element are separated.

When the housing bell 3 is unscrewed from the housing head 2 , the filter candle 12 is accessible and can be unscrewed from the lower, threaded end of the rod 11 and replaced by a new candle.

As indicated schematically in FIG. 2, the housing head 2 is connected on the input side, that is to say in the region of the inlet duct 9, to a pressure gauge (manometer) 17 . Another pressure gauge 18 is connected to the outlet side of the filter, that is to say the outlet duct 10 . The pressure prevailing in the filter in front of and behind the filter cartridge can thus be read off.

As can be seen from Fig. 1, run on both sides of a lasskanals 9 , starting from the flat surface of the connecting flange 7 , two bores 21 , 22 through the housing head 2 , which have no connection to the inside of the housing head, but smooth through this Go through the material forming the head. The two bores 21 , 22 open out on the opposite flat surface of the connecting flange 8 on both sides of the outlet channel 10 . The two holes 21 , 22 are used in a manner to be described to accommodate bolts in order to connect the connecting flanges 7 , 8 to other parts.

As shown, a recess 23 on the top of the housing head 2 is releasably closed by a snap-in lid 24 , preferably made of plastic. The recess 23 can serve to accommodate electrical switching elements which, for example, respond to the pressure values indicated by the pressure gauges 17 , 18 and deliver switching signals.

As can be seen from FIG. 3, the housing heads 2 of two filters 1 arranged next to one another are connected to one another at their connecting flanges by coupling caps 30 of identical construction, which will be described in detail. The filter 1 is connected to the coupling caps 30 by means of screw bolts which each pass through the bores 21 , 22 of the two filters and through bores on the coupling caps 30 aligned therewith. In Fig. 3, the heads 31 of these screw bolts on the left clutch cap 30 are visible. On the right coupling cap 30 there are corresponding nuts on the screw bolts, so that the two filters 1 are tightly and tightly clamped together by the coupling caps 30 . For sealing purposes, appropriate seals 32 (see FIG. 5) are inserted between the coupling caps 30 and the connecting flanges. In the left in Fig. 3 clutch cap 30 opens an Einlaßlei device 33 , from the clutch cap 30 located in Fig. 3 on the right an outlet line 34 goes off.

FIG. 4 shows a rear view of the clutch cap 30 on the right in FIG. 3. The outlet line 34 extends from an outlet opening 35 located on the front side of the coupling cap 30 . This outlet opening is connected in the interior of the coupling cap 30 to two channels 36 , 37 which lead to inlet openings 38 , 39 at the rear of the coupling cap 30 . In Fig. 4 are also visible on both sides of the inlet openings 38 , 39 lying holes through which two filters 1 in the manner shown in FIG. 3 can be connected to the respective hitch be caps 30 to form a fixed unit. FIG. 5 shows in section the flanged to the housing head 2 coupling cap 30 of FIG. 4. In particular, in Fig. 5 also one of the bolts 41 provides with associated nut 42 Darge, by means of which in the manner already described, the coupling cap 30 with the two filters 1 can be connected. From Fig. 5 also shows that the discharge pipe 34 is not opposed to the exhaust port 10 of the housing head 2 directly. Rather, the medium flow leaving the outlet channel 10 , indicated by the arrows in FIG. 5, must be deflected twice in order to be able to leave the coupling cap 30 via the outlet line 34 .

The structure of the coupling cap 30 fastened in FIG. 3 on the left-hand side of the two filters 1 corresponds exactly to the construction described with reference to FIGS. 4 and 5 of the coupling cap 3 located on the right in FIG. 3 . Accordingly, when a media flow via the inlet line 33 , which speaks the outlet line 34 ent (see FIG. 5) in the coupling cap 30 , the flow first hits the line 33 opposite rear wall 43 of the coupling cap 30 , which acts as a baffle and leads to turbulent swirling and deflection of the medium flow before it can enter the interior of the filter via the inlet channel 9 . It has been found that can be deposited by the impact of the medium flow on the rear wall 43 already entrained by this stream foreign substances in the Kupplungskapape 30 in advance and lung cap 30 accumulate at the bottom of Kupp. At the bottom of the coupling cap 30 , a disposal opening can be provided, which, as indicated by dashed lines in FIG. 5, can be closed by a disposal screw 44 .

The swirling of the medium stream entering via the inlet line 33 , which acts as a baffle on the rear wall 43 , continues into the interior of the filter.

It has been found that this turbulence or swirling of the medium flow is conducive to the separation of foreign components carried along. This turbulence arises, as already said ge, in that the mouth of the inlet line 33 is not directly opposite the inlet channel 10 , but is offset obliquely downwards relative to this (in the illustrated embodiment).

As already stated, the two coupling caps 30 arranged on the left and right of the housing heads 2 in FIG. 3 are identical to one another. The contour of its back (see. Fig. 4) is such that it is smooth and flush with the connection flanges 7 , 8 of two filters 1 arranged side by side ver bindable and holds these filters together. In addition, the coupling cap 30 can also (attached to the axis of the line 33 or 34 ) rotated by 180 ° to the connecting flanges 7 , 8 , so that the lines 33 , 34 are inclined above the on or off lasskanals 9 , 10 .

In the illustrated embodiment, the coupling caps 30 cover the connecting flanges of two filters 1 lying next to one another. It is possible to expand the flow caps 30 laterally so that they can also be connected to three or more filters 1 in the manner described.

In any case, with the aid of the principle shown in FIG. 3, the two filters 1 are connected in series in such a way that the medium entering through the line 33 flows - via the channels 36 , 37 arranged in the interior of the flow cap 3 - and splits the inlet channels 9 of each filter 1 arrives. After filtration, the two medium streams flowing through the individual filters combine like the one in the opposite flow cap 30 in order to flow off via the common outlet line 34 .

With the help of the connecting flanges 7 , 8 it is also possible to connect two or more filters 1 in series . In this case, the connection flange 8 of a first filter 1 is placed on the connection flange 7 of a second filter in a sealed manner. The two filters are then clamped tightly and tightly together by the already mentioned screw bolts which cross the bores 21 , 22 .

Fig. 6 shows a simultaneous juxtaposition and series connection of a total of six filters, which are designated in Fig. 6 with the reference numerals 51 to 56 . The arrangement and mode of operation of the "filter battery" shown in FIG. 6 can be easily understood from the drawing. The flow cap 30 on the left in FIG. 6 ensures that the medium flow is divided. The partial flows flow through the two filters 51 , 52 connected in parallel. From the filters 51 , 52 ge long partial streams through the filters 53 , 55 and 54 , 56th By in Fig. 6 right side of the filters 55, 56 angeord designated flow cap 30, the two substreams are recombined into a flowing out via the outlet line 34 total current. The filters 51 , 52 can form a pre-filtration stage, the filters 53 , 54 a fine filtration stage and the filters 55 , 56 an adsorption stage. For this purpose, the individual filters can contain corresponding filter elements (filter candles 12 ).

Fig. 7 shows schematically a further embodiment of the invention. Two filters 61 , 62 are connected in parallel by two flow caps 30 of the type described, so that an inflow of medium flowing in the direction of the arrow divides into two partial flows and, after filtration, is combined again to form an outflowing flow. This is shown in the first, uppermost part sketch of FIG. 7.

In this case, the flow caps 30 additionally contain, for example in the opening 35 shown in FIG. 4, integrated hand or remote-controlled valves 63 , 64 , with the aid of which the flow can be deflected. The valves 63 , 64 can also be controlled automatically by the flow in the filter itself.

The filter arrangement shown in FIG. 7 can be used, for example, for dust filtration, that is to say for cleaning gaseous media from solids.

If the filter 61 is contaminated, the medium flow is only guided through the still permeable filter 62 according to the two partial sketch from the top of FIG. 7 by appropriate adjustment of the valves 63 , 64 .

By further appropriate adjustment of the valves 63 , 64 , as shown in the third partial sketch from the top of FIG. 7 ge, the medium stream flowing through the filter 62 for backwashing and thus cleaning the filter 61 can be used. The backwash stream contaminated with dust or the like and leaving the filter 61 is led out of the filter 61 and disposed of in a known manner.

Finally, as shown in FIG. 7 in the lowest partial sketch, the state shown in the uppermost partial sketch can be set again.

Numerous other possibilities are conceivable in which media flows can be passed in a sensible manner through a plurality of filters connected in series and / or in series with the aid of valves arranged in the coupling caps 30 .

In the switching state according to the second sketch from above in Fig. 7, the clogged filter 61 between the hitch be caps 30 can be easily replaced without having to interrupt the current through the filter 62 .

With the help of the described connection flanges 7 , 8 and hitch be caps 30 can be realized very different and versatile filter batteries in modular construction. A major advantage of the invention is that, for example, two demand by a flow cap 30 parallel-connected filters 1 with reference to the thereby achievable filter capacity less installation space than a single geared at the same capacity filter. So you can get by with a parallel connection of two filters in the longitudinal or axial direction of the filter with smaller dimensions. In addition, there are handling parts because a single filter of two or more filters connected in parallel can be handled more easily since it has a lower weight than a single, large filter. Another advantage is that because of the parallel flanges 7 , 8 a lateral or "radia ler" installation and removal of a filter is possible. It is also possible, in the case of an existing filter of the type described, to increase the filter capacity in a simple manner by connecting a corresponding filter in parallel with the aid of the flow caps 30 , so that an adaptation to occurring performance requirements is easily possible. The described installation of changeover valves gives the person skilled in the art numerous further variations, in particular the described backwashing of dirty filter inserts. By rotating the filter 1 (about its axis) by 180 °, the inlet and outlet channels 9 , 10 swap their roles and the filter can be operated in the opposite direction of flow.

Claims (6)

1. Filter for fluid, in particular gaseous media, for example compressed air, with a filter housing, with a replaceable filter element enclosed by the filter housing, with inlet and outlet channels on the housing for the medium to be filtered and with a disposal opening on the housing for the removal of separated foreign substances , characterized in that on the filter housing ( 2 , 3 ) there are two mutually matching connecting flanges ( 7 , 8 ) on which the inlet and outlet channels ( 9 , 10 ) open or open, and the connecting flanges ( 7 , 8 ) a series connection of several filters ( 1 ), and that with the connecting flanges ( 7 , 8 ) at least two filter housings ( 2 , 3 ) arranged next to each other, connectable coupling caps ( 30 ) with inlet and outlet openings ( 35 , 38 , 39 ) are provided, and the coupling cap ( 30 ) allow a connection of at least two filters ( 1 ). 2. Filter according to claim 1, characterized in that the filter housing comprises a housing head ( 2 ) and a housing bell ( 3 ) which can be connected thereto, and the connection flanges ( 7 , 8 ) are arranged on the housing head ( 2 ). 3. Filter according to claim 1, characterized in that the inlet opening ( 35 ) of the coupling cap ( 30 ) has a baffle surface (rear wall 43 ) opposite. 4. Filter according to claim 1 and 3, characterized in that the inlet opening ( 35 ) of the coupling cap ( 30 ) relative to the inlet channels ( 9 ) of two by the coupling cap interconnected filter housing ( 2 , 3 ) is spatially arranged so that Turbulence arises from flow deflection, which continues until the filter insert (filter candle 12 ). 5. Filter according to claim 1, characterized in that on the coupling cap ( 30 ) by a closure means ( 44 ) closable disposal opening is provided. 6. Filter according to claim 1, characterized in that in the coupling cap ( 30 ) adjustable valve devices ( 63 , 64 ) are provided for switching off and / or switching of flows.