WO2005084917A1 - Device for filtering a liquid in particular a liquefied plastic - Google Patents

Abstract

The invention relates to a device for filtering a liquid, with at least one liquid inlet channel and at least one liquid outlet channel, whereby two plate filters are provided, arranged at a separation from each other in the flow path of the liquid for filtering, transverse to the flow direction thereof and between the fluid inlet channel and the fluid outlet channel, mounted by means of an axially-displaceable stud, arranged in a fluid-tight manner in a housing drilling. The filters may be moved simultaneously between a filtering position and a regeneration position. By means of a further axial displacement of the stud (8), both filters (5, 6) may be brought into a third position in which at least one filter (5 or 6) is in an exchange position, in which said filter is freely accessible from the exterior, during which the at least one other filter (6 or 5) filters the liquid.

Description

 Device for filtering a fluid, in particular a liquefied plastic

The present invention relates to a device for filtering a fluid, in particular for filtering a liquefied plastic, with the features of the preamble of patent claim 1 and a corresponding filter arrangement with the features of the preamble of patent claim 17.

In order to filter fluids and in particular to filter thermoplastic liquefied plastics, it is known to use devices of different designs.

For example, DE 196 12 790 C describes a corresponding device for filtering a fluid, two plate-like filters arranged in pairs in the flow path of the fluid to be filtered and transversely to its flow direction being provided between a fluid supply channel and a fluid discharge channel slidable bolt, which is arranged in a corresponding housing fluid-tight, are mounted. Here, in the known device for filtering a liquefied thermoplastic in a first position of the bolt, both plate-like filters are flowed through, so that accordingly both plate-like filters are available for filtering. However, as soon as the filters are loaded with dirt particles, the known one

Device furthermore the possibility of bringing the bolt into a second position by axially displacing it, in this second position a filter filtering the fluid and the second filter being flowed through in the opposite direction to the flow during filtering, so that dirt particles from the Surface of the second filter can be detached and removed to the outside. In addition to this second position, which is also referred to as the cleaning position or regeneration position, it is also possible in the known filter device to move the bolt axially so far that the two filters are located together outside the housing, so that they can be removed and replaced together and replaced by two new filters can be.

The previously described structural design of the known filtering device therefore makes it necessary to interrupt the filtering process when replacing the filter, so that in this third position of the axially displaceable bolt, this bolt completely interrupts the fluid flow path from the fluid supply duct to the fluid discharge duct. Since such filtering devices are generally arranged downstream of an extruder and upstream of a corresponding tool or a nozzle, the replacement of the plate-like filters in the known device always requires an interruption in production, which on the one hand always involves a malfunction in the operational sequence and on the other hand when starting up again can lead to problems, for example caused by deposits in the channels.

In order to avoid the problems described above, DE 35 27 173 C proposes a filter device which has at least two bolts which are axially displaceable independently of one another in a housing, each bolt being provided with two plate-like filters in each case. It is possible in the known device to bring about a further position of the plate-like filters by axially displacing the bolts independently of one another next to the filtering position (first position), in which all four plate-like filters filter the fluid, in this further one Position of the plate-like filter, a filter can be arranged outside the housing, so that this one filter must be replaced accordingly, while the other three remaining filters filter the fluid at this time. A backwashing position (second position), in which a plate-like filter opposite to the flow direction during filtering is cleaned with a partial flow of the filtered fluid during the ongoing filtering process, does not enable the device known from DE 35 27 173 C, so that in comparison to that of the device known from DE 196 12 790 C, a much more frequent replacement of the plate-like filter is required. In addition, the device known from DE 35 27 173 C always requires two bolts, which on the one hand results in an increased space requirement in comparison to a filtering device with one bolt and on the other hand makes the filtering device considerably more expensive.

The present invention has for its object to provide a device for filtering the specified type, in particular a device for filtering liquefied, thermoplastic material, which enables permanent continuous operation with a particularly simple construction.

This object is achieved by a device for filtering with the features of patent claim 1.

The device according to the invention for filtering a fluid, in particular for filtering a liquefied and preferably also a thermoplastic, has at least one fluid supply channel and at least one fluid discharge channel, with at least two in the flow path of the fluid to be filtered and transverse to its flow direction between the fluid supply channel and the fluid discharge channel , plate-like filters arranged at a distance from one another are provided. Here, the at least two plate-like filters are supported by an axially displaceable bolt, which is located in a housing bore in the filter device. device is arranged fluid-tight, such that the at least two filters simultaneously between a first position in which the at least two filters filter the fluid and a second position in which at least one filter of the at least two filters opposite to the direction of flow of the fluid when filtering, a partial flow of the filtered fluid is flowed through and thereafter this partial flow can be removed from the device to the atmosphere, while the other filter or filters filter or filter the fluid are movable. The movement of the filter from the first position to the second position or vice versa is brought about in the device according to the invention by an axial displacement of the bolt. A further axial displacement of the pin in the device according to the invention allows the at least two filters to be brought into a third position, in which third position at least one filter of the at least two filters is in an exchange position in which it is freely accessible from the outside while the at least one other filter is filtering the fluid.

In other words, the device according to the invention differs from the closest prior art according to DE 196 12 790 C in that in the third position, ie the exchange position, at least one filter is no longer covered by the device housing and is therefore freely accessible from the outside is, so that this at least one filter can be replaced and replaced by a fresh, unloaded filter, while at this time, ie in this current position (third position) of the axially displaceable bolt, the fluid to be filtered continuously flows through the at least one other filter is, so that an interruption of the filtering process in the device according to the invention does not take place even if a filter is replaced and replaced by an unloaded, fresh filter, which is not possible in the state of the art according to DE 196 12 790 C mentioned at the beginning or in the prior art according to DE 35 27 173 C always requires at least two bolts, each with at least two filters arranged in pairs.

To clarify, it should be noted that the terms used here upstream and downstream always denote those positions which are located in the flow direction of the fluid to be filtered. Furthermore, the term bolt not only includes the cylindrical bolt described in the previously cited prior art, but also covers those bolts which have a rectangular cross section, such cross-sectionally rectangular bolts also being referred to in the present field of art as flat slides which are axial are slidably and fluid-tight in a suitably adapted rectangular recess in the housing. Alignment in the sense of the present text means that there is in any case at least one flow connection for the fluid flowing through these channels between the channels which are aligned with one another.

The device according to the invention has a number of advantages. It should first be noted that the device according to the invention has a particularly simple and compact construction, since the device according to the invention uses all three operating positions even when only a single bolt is used (first position = filtering position; second position = regeneration position; third position = exchange position) enables, so that a continuous, uninterrupted filtering is possible with the device according to the invention. This in turn leads to the fact that deposits caused by partially hardened plastic or degraded or cracked plastic, particularly in the channels, are particularly effectively avoided in the device according to the invention, so that the device according to the invention is very insusceptible to faults, which makes monitoring the The inventive device required personnel requirements is minimized, which is accordingly in a reduced cost structure. The device according to the invention also allows filtering polymeric melts within predetermined pressure tolerance values, since if a predetermined pressure rise upstream of the 5 plate-like filters is exceeded, either the relevant plate-type filter is transferred to the second position and thus an automatic regeneration thereof or this plate-like filter is moved into its third position so that it can be exchanged for a new, uri-soiled filter,

.0 without having to interrupt the filtering process «which ^{• is maintained} by the other filter in the one bolt. This in turn has the consequence that neither the st_rom extruder arranged on the device according to the invention, even when the filter is replaced or when the rain

.5 filter or the tool arranged downstream of the device according to the invention or the nozzle must be taken out of production, which on the one hand contains considerable economic advantages and on the other hand further significantly reduced personnel costs. In addition, it is with the ore

Device according to the invention, depending on the speed of the axial displacement of the bolt, is particularly easily possible to prevent considerable pressure surges in the polymer melt, such pressure surges easily leading to an undesirable chemical or physical change in the polymer melts, particularly in the case of sensitive materials , Because of the compact design of the device according to the invention, it can be used due to a limited space requirement, so that it can also be replaced easily and without great effort by conventional filtering devices. A first, particularly advantageous development of the device according to the invention provides that a supply of the fluid to be filtered to at least one filter and... Over the entire axial sliding distance of the one bolt between the first position, the second and the third position a guide of filtered fluid downstream of one filter is ensured. In order to achieve this, the device according to the invention preferably has a housing that, seen in the flow direction of the fluid to be filtered, the fluid supply channel, followed by the housing bore, which is arranged essentially perpendicular to the flow direction of the fluid in the fluid supply channel and which receives the axially displaceable bolt, and subsequently has the fluid discharge channel, such an embodiment of the device according to the invention being characterized in particular by a simple construction which can be realized with few parts.

As already stated above in the device according to the invention, at least two filters arranged axially apart from one another are provided in the single, axially displaceable bolt. A particularly inexpensive and simple and trouble-free embodiment of the device according to the invention provides that the only axially displaceable pin has only two filters arranged axially apart, this pin then relative to the housing from the first position axially into the second position and from the second position into the third position and vice versa, so that either filter filters the fluid to be filtered in the first position, in the second position a filter filters the fluid while the other filters are flowed through by a partial flow of the filtered fluid opposite to the direction of the filter flow and are thus cleaned (regenerated), or that one filter filters the fluid, while the other filter is at this time located outside the housing and is thus freely accessible, so that then an exchange of the other filt it can be done against an unloaded filter.

In order on the one hand to ensure a particularly stable and dislocation-free holding of the filter within the bolt and on the other On the other hand, to enable the axial displacement of the bolt within the corresponding housing bore without interference, a further embodiment of the filter according to the invention provides that each filter is arranged in a cavity that extends through the bolt material and extends essentially at right angles to the bolt axis. Here, the positioning of each filter is provided so that the filter plane is approximately parallel to the axis plane of the bolt and preferably in the radial center thereof, so that the filter area is maximized accordingly, the filter in particular being designed as a circular filter surface. Furthermore, locking elements are assigned to the filter, so that the filter is detachably held within the cavity. It is particularly advantageous to select a sandwich-like filter arrangement which comprises a retainer plate in the direction of flow of the fluid to be filtered, the plate-like filter, which can be arranged in one or more layers, and then a sieve plate, which simplifies the exchange offers to hold this sandwich-like filter arrangement detachably in the cavity.

In a further, particularly suitable embodiment of the device according to the invention, each supply part channel and one discharge part channel are assigned to each filter, wherein in the first position of the bolt to be axially displaced, both supply part channels are aligned with the fluid supply channel and both discharge part channels are aligned with the fluid discharge channel, so that on the one hand in the first position (filtering position) via the fluid supply channel and the two, so that aligned supply subchannels, the fluid to be filtered can be fed to each filter and after filtration the filtered fluid can be removed from the device via the two discharge subchannels and the fluid discharge channel aligned therewith , In the second position (regeneration position) of the bolt, the supply subchannel is aligned with a filter and the discharge subchannel with the same filter the fluid supply channel or fluid discharge channel, while the discharge subchannel of the other filter is also connected to the common fluid discharge channel. From its inflow side, the other filter is not in flow connection with the fluid supply channel, but is only connected to a drain channel provided in the housing, so that part of the filtered fluid flows counter to the flow direction when filtering through the other filter and over the filter , Drain channel can be removed from the device. As a result,

L0 is sufficient for the other filter to be freed of adhering dirt particles and thus to be regenerated.

An axial displacement of the bolt brings it into a third position. Here is in the third position

.5 of the bolt of the supply part channel of the one filter with the fluid supply channel and the discharge part channel of the same filter with the fluid discharge channel in flow connection, but the flow connection of the other filter to the fluid supply channel and to the fluid discharge channel is interrupted, so that upstream and

! 0 of the other filter downstream is no flow connection to z ^~ fluid supply channel or is the fluid discharge channel. At the same time, in this third position of the bolt, the other filter protrudes so far out of the housing that it can be easily removed from the bolt and replaced with a new one that has not yet been used or cleaned externally.

: 5th filter can be replaced. In addition to the advantages already mentioned, this embodiment has a further, essential advantage, which can be seen in the fact that at no time is the flow path of the fluid to be filtered from the fluid inlet channel to the fluid outlet channel interrupted, so that there is also no flow blockage in one of the previously listed three positions can occur and thus effective and simple risk of bursting on the extruder and / or on the device according to the invention is excluded. Particularly when the aforementioned feed part channels and the discharge part channels extend essentially in the direction of displacement of the bolt, such a development of the device according to the invention has a very compact design with a minimized length of the feed part channels and discharge part channels.

In a further development of the previously described embodiment of the device according to the invention, it is provided that the feed sub-channels, the number of which corresponds to the plate-like filter, and / or the discharge sub-channels, the number of which also corresponds to the number of plate-like filters, are each arranged at a radial distance from one another. In such embodiments of the device according to the invention, in which the bolt is designed as a flat slide with a rectangular cross-section, the term radial distance means that in particular one feed part channel or one discharge part channel is assigned to an upper edge area and the other feed part channel or the other discharge part channel is assigned to the lower edge area ,

In particular, the feed subchannels or the discharge subchannels are aligned parallel to the bolt axis, which means nothing else that the feed subchannels or discharge subchannels are positioned parallel to the axial displacement direction of the bolt and are designed as predominantly rectilinear channels.

A structurally very simple and therefore also inexpensive and with high precision embodiment of the device according to the invention proposes that the feed part channels and / or the discharge part channels are provided in the bolt. There is the possibility that the feed part channels and / or the discharge part channels are designed as cylindrical bores through the bolt material. A particularly suitable development of the previously described embodiment of the device according to the invention provides that the supply part channels and / or the discharge part channels, preferably the supply part channels and also the discharge part channels, are each formed as an axially extending recess in the bolt jacket, so that these are axial extending recesses with the inner wall of the housing bore then design the corresponding supply part channels and discharge part channels. In other words, the respective axially extending recess

L0 in the bolt casing is then closed by inserting the bolt into the housing bore through the inner wall of the housing bore, so that the corresponding channel is formed. This further development of the device according to the invention is characterized in that the feed subchannels thus created and / or the discharge

.5 subchannels are not only easy to manufacture but can also be cleaned very easily and unproblematically, since they are then freely accessible over their entire axial length when the bolt has been moved out of the housing bore so far that the housing no longer has the axially extending recesses from-

! 0 covers. Furthermore, this development enables uninterrupted filtering to take place even when the bolt is axially displaced, so that during the actual axial displacement process of the bolt from the first position to the second position and / or from the second position to

15 third position and vice versa always continuously and uninterrupted filtered fluid is fed to the fluid discharge channel, which is not the case with the prior art mentioned at the beginning. In this way, incorrect productions or production interruptions and the problems associated therewith are avoided and pressure surges in the fluid to be filtered are prevented or reduced to a minimum.

In order to ensure a proper supply of the fluid to be filtered to the partial feed channels, a further development 5 of the device according to the invention provides that the fluid supply has a channel division in the region of the bolt, forming a first feed channel and a second feed channel, the number of feed channels depending on the number of feed subchannels. If, for example, the device according to the invention has three supply subchannels in a pin, the fluid supply channel in the area of the pin is divided accordingly into three supply channels, the angle of these supply channels relative to one another and in particular the angle α of the first supply channel relative to the second supply channel between 15 ° and 90 °, preferably between 30 ° and 60 °, varies. It was found here that if the aforementioned angles were observed, the fluid to be filtered, which was supplied via the fluid supply channel, was evenly distributed over the supply channels, so that, accordingly, all filters in the bolt were also supplied with a constant fluid volume flow.

In order to further ensure in the device according to the invention that the filtered fluid can be properly discharged from the device downstream of the plate-like filter, another further development of the device according to the invention provides that the fluid discharge channel in the area of the bolt has a channel division with formation of a first discharge channel and one second discharge channel, the number of discharge channels corresponding to the number of filters, as explained above for the channel division of the fluid supply channel. In particular, the angle β of the first discharge channel relative to the second discharge channel varies between 15 ° and 90 °, preferably between 30 ° and 60 °, these aforementioned angles β ensuring that on the one hand the filtered fluid can flow out uniformly in the first position of the bolt and in the second position of the bolt, a partial flow of the filtered fluid flows through the respective plate-like filter in the opposite direction to the flow direction of the fluid during filtration and can thereby remove dirt from this filter. Instead of the previously described channel division of the fluid supply channel or the fluid discharge channel, a fundamentally different embodiment of the device according to the invention provides that the fluid supply channel and / or the fluid discharge channel have a dovetail-shaped widening in the area of the bolt, the end region of the dovetail-shaped widening having a sealing surface the bolt jacket. In other words, the end region of the dovetail-shaped expansion is adapted to the curvature of the bolt shell and lies on the bolt shell in a fluid-tight manner, so that the feed part channels or discharge part channels arranged at a radial distance are continuously fed with fluid to be filtered or fluid which has already been filtered, as a result of which Embodiment, the channel division of the fluid supply channel or the fluid discharge channel is replaced. A dovetail-shaped widening of the fluid supply channel in the region of the bolt or a dovetail-shaped widening of the fluid discharge channel in the region of the bolt is particularly appropriate if the bolt is provided with more than two plate-like filters, so that the channel division of the fluid supply channel is then produced The formation of a corresponding number of supply channels and / or the creation of the channel division of the fluid discharge channel, with the formation of a corresponding number of discharge channels, can be omitted, which considerably reduces the design and the manufacturing outlay. In addition, such a dovetail-shaped widening can be cleaned much more easily and unproblematically compared to a corresponding number of supply channels or discharge channels.

A particularly suitable and advantageous further development of the device according to the invention provides that the pin has two plate-like filters, the device according to the invention having a fluid supply channel, preferably arranged in the housing, which in the area of the pin divides a channel to form a first supply channel and one two has th feed channel. In the first position (filtering position) of the bolt, the first feed channel is aligned with a first feed part channel and the second feed channel with a second feed part channel, the first feed part channel opening into the cavity of a first filter and the second feed part channel opening into the cavity of the second filter. Downstream of the first filter includes a first discharging sub-channel and downstream of the second filter is followed by a second ^• dissipation sub-channel, wherein the first discharge sub-channel in a first discharge channel and second discharge sub-channel in a second discharge channel open. The first discharge channel and the second discharge channel then combine to form the common fluid discharge channel, as seen in the flow direction of the filtered fluid. With regard to the configuration of the feed channels and the feed subchannels or the discharge channels and the discharge subchannels, the statements as described in detail above apply.

A further development of the special embodiment of the device according to the invention described above provides that the fluid supply channel has a channel division in the region of the pin, forming the first supply channel and the second supply channel, the first supply channel being aligned with the first partial feed channel in the second position of the pin and the second feed channel is closed by the bolt. Furthermore, the first supply subchannel opens into the cavity of the first filter, the first discharge subchannel being connected downstream of the first filter and the second discharge subchannel being connected downstream of the second filter, such that the first discharge subchannel enters the first discharge channel and the second discharge subchannel into the second discharge channel open. After this, the first discharge channel and the second discharge channel combine to form the common fluid discharge channel, the space of the cavity located upstream of the second filter being aligned with a discharge channel through which a partial flow loaded with dirt particles detached from the second filter emerges from the housing and thus to the atmosphere is dissipatable. An additional development of the above-described embodiment of the device according to the invention proposes that the fluid supply channel has a channel division in the region of the pin, forming the first supply channel and the second supply channel, the first and second supply channels with the cavity of the first being in the third position of the pin Filters align. The first and second discharge channels follow downstream of the first filter, the bolt in its third position projecting axially out of the housing bore to such an extent that the second

Filter, which in this position of the bolt does not come into contact with fluid to be filtered or filtered fluid, is freely accessible from the outside, so that this second filter can be removed from the corresponding cavity and replaced by a correspondingly new or externally cleaned filter.

The present invention further relates to a filter arrangement for filtering a fluid, in particular for filtering a liquefied, preferably thermoplastic, with which it is possible to filter fluids without interruption over an unlimited production period.

This object is achieved according to the invention by a filter arrangement with the features of patent claim 17.

The filter arrangement according to the invention for filtering a fluid, in particular for filtering a liquefied, preferably thermoplastic, provides that the filter arrangement has at least two, preferably two to six, devices according to the invention, as described in detail above, the fluid supply channels and the fluid discharge channels of the at least two devices according to the invention are combined into a single fluid feed channel and into a single fluid discharge channel. The filter arrangement according to the invention has all the advantages as described at the beginning for the device according to the invention. In particular, the filter arrangement according to the invention allows a continuous, permanent and uninterrupted filtering of fluids, preferably a filtering of liquefied plastics, since each individual device is designed in such a way that uninterrupted filtering is ensured even if a plate-like filter is in pairs in a bolt arranged plate-like filter is backwashed (regenerated) with a partial flow of filtered fluid in the second position of the respective bolt or if a filter of the filters arranged in pairs in the bolt is positioned in the third position of the bolt outside the housing and is replaced there with a new filter ,

A particularly space-saving embodiment provides a development of the filter arrangement according to the invention described above, in which two to six devices according to the invention are arranged in a common housing.

As already explained above, the filter arrangement according to the invention has all the advantages, as are detailed in the above description for the device according to the invention, so that reference is made to avoid repetition.

Advantageous developments of the device according to the invention and the filter arrangement according to the invention are specified in the subclaims.

The device according to the invention is explained in more detail below using an exemplary embodiment in conjunction with the drawing. Show it: Figure 1 is a perspective front view, ie a view from the upstream side of the embodiment of the device according to the invention, with the housing partially removed;

Figure 2 is a rear perspective view, i.e. a view from the outflow side, of the pin shown only partially in Figure 1 in its first position (filtering position);

Figure 3 is a front perspective view, i.e. a view from the upstream side, of the pin only partially shown in Figure 1 in its first position (filtering position);

FIG. 4 shows a perspective front view (inflow side) of the bolt in a second position (regenerator position), in which a plate-like filter filters the fluid while the other plate-like filter is backwashed;

Figure 5 is a rear perspective view (outflow side) of the pin in the second position (regenerator position) in which a plate-like filter filters the fluid while the other plate-like filter is backwashed;

Figure 6 is a front perspective view (upstream side) of the pin in a third position (replacement position) in which a plate-like filter filters the fluid while the other plate-like filter is being replaced; and

FIG. 7 shows a perspective rear view (outflow side) of the bolt in the third position (replacement position), in which one plate-like filter filters the fluid while the other plate-like filter is replaced.

In Figures 1 to 7, the same parts are provided with the same reference numerals. For a better understanding of the schematic illustrations according to FIGS. 2 to 7, the housing was only indicated schematically in these figures as a top view of the upper outline.

FIG. 1 shows a perspective front view of the device, generally designated 1, for filtering a fluid, in particular for filtering a liquefied plastic, the device 1 having a housing 2, which extends from the inlet opening of a common fluid supply channel 3 to the outlet opening of a common one Fluid discharge channel 4 extends, the housing 2 covering the fluid discharge channel 4 in FIG. 1, since the common fluid discharge channel 4 is positioned on the rear side of the housing 2.

Furthermore, the housing 2 is provided with a cylindrical housing bore 7, in which a bolt 8 is arranged in a fluid-tight manner, the bolt 8 in the axial direction, i.e. in the direction of arrow 19 and vice versa, is displaceable such that the bolt 8 can assume a first position (filtering position), a second position (regeneration position) and a third position (replacement position). In order to bring about this axial displacement of the bolt 8, the bolt 8 is preferably assigned hydraulic elements (not shown) which position the bolt 8 exactly in the three positions mentioned above.

Seen in the direction of flow of the fluid to be filtered, this fluid to be filtered is first fed to the device 1 via the fluid feed channel 3, the fluid feed channel 3 being in a first feed channel 15 and a second feed channel 16 divides. These two supply channels 15 and 16 are arranged at an angle α, which in the embodiment shown is approximately 50 °.

After the fluid to be filtered is divided evenly between the first feed channel 15 and the second feed channel 16 and has flowed through it, the fluid to be filtered passes from the first feed channel 15 into the first feed subchannel 12 and from the second feed channel 16 into the second feed subchannel 11, whereby these two feed sub-channels 11 and 12 are each formed as an axially extending recess in the bolt casing of the bolt ^'. 8 Together with the inner wall of the housing bore 7, these two recesses, which are positioned at a radial distance from one another, form the first and second supply subchannels 12 and 11, the first supply subchannel 12 being only partially recognizable in FIG. 1, while FIG. 3 shows these two openings - Fully maps channels 12 and 11.

After the fluid to be filtered has then passed the supply subchannels 12 and 11, it arrives upstream of the filters 5 and 6 in the corresponding cavity 9 and 10, the cavities 9 and 10, in the embodiment shown, in each case as a cylindrical through-hole, which is vertical runs to the axis of the bolt 8, is formed and serves to receive the plate-like filters 5 and 6. Only the right-hand plate-like filter 5 is shown in FIG. 1, and only the corresponding cavities 9 and 10 are shown in FIG. 2, but not the plate-like filters 5 and 6 themselves.

As can be seen from the schematic illustration in FIG. 2, the fluid to be filtered passes through the plate-like filters 5 and 6 (not shown) and is therefore present as a filtered fluid. The filtered fluid then flows from the area of the cavities 9 and 10 located downstream of the filters 5 and 6 into the first discharge part channel 13 and into the second discharge part. channel 14, wherein the first discharge duct 13 is assigned to the filter 6 and the second discharge duct 14 to the filter 5. These two discharge subchannels 13 and 14 open into the first discharge channel 18 and the second discharge channel 17, respectively. The first and second discharge channels 18 and 17 in turn combine in the flow direction of the now filtered fluid in the fluid discharge channel 4. The first discharge channel 18 is arranged relative to the second discharge channel 17 in the embodiment shown in FIG. 2 at an angle β of approximately 50 °.

As already described above for the two supply subchannels 11 and 12, the two discharge subchannels 13 and 14 are each formed as an axially extending recess in the bolt jacket, so that these cutouts together with the inner walls of the housing bore 7 the respective discharge subchannel 13 or 14 train.

To clarify, it should be noted at this point that the mouth area of the first feed channel 15 and the second feed channel 16 (FIG. 3) does not protrude into the first feed subchannel 12 or the second feed subchannel 11, which is likewise identical for the feed openings of the first discharge channel 18 and the second discharge duct 17 (FIG. 2) applies, which likewise do not protrude into the discharge duct 13 or discharge duct 14.

Figures 1 to 3 show the device 1 in the first position of the bolt 8 which can be displaced axially in the direction of arrow 19 and vice versa, ie in this first position both plate-like filters 5 and 6 are used for filtering the fluid and in particular for filtering the liquefied one In this case, for example, the liquefied plastic is supplied by means of an extruder which is arranged upstream of the fluid supply channel 3 and whose outlet opens into this fluid supply channel 3, while the filtered fluid, in particular the liquefied plastic, is fed via the fluid discharge channel 4 (Figure 2) removed from the device 1 and from there, for example, to a nozzle or to a tool (not shown).

In contrast to FIGS. 1 to 3, which depict the bolt 8 in a filtering position (first position), FIGS. 4 and 5 depict the bolt in its second position (regeneration position), the second position being opposed by a displacement of the bolt 8 to the direction of arrow 19 (FIG. 1).

As can be seen from FIG. 4, in the second position of the bolt 8, the first feed channel 15 is closed fluid-tight at the end by a section of the bolt 8, so that accordingly the fluid feed via the first feed subchannel 12 and thus to the left-hand plate-like filter 6 is interrupted. At the same time, this axial displacement of the bolt 8 from its first position into the second position brings the space of the cavity 10 upstream of the plate-like filter 6 into communication with a drain channel 20, the drain channel 20 protruding from the housing 2 and opening into the atmosphere ,

The inflow of fluid to be filtered takes place via the fluid feed channel 3, the second feed channel 16 and the second feed subchannel 11, so that the fluid to be filtered flows through the plate-like filter 5, as can be seen from FIG.

Downstream of the filter 5, the now filtered fluid passes from the area of the cavity 9 via the second discharge subchannel 14 into the second discharge channel 17, a partial flow of filtered fluid due to the back pressure prevailing in the fluid discharge channel 4 (caused by a nozzle or a tool that follows it) ) via the first discharge duct 18 and the associated first discharge part duct 13 into the area of the cavity 10 downstream of the plate-like filter 6 arrives and from there flows through the plate-like filter 6 (opposite to the flow direction when filtering), whereby the dirt accumulated on the plate-like filter 6 is rinsed off, so that a partial flow of the fluid loaded with rinsed dirt particles is then discharged to the atmosphere via the discharge channel 20 can. This in turn effects the appropriate cleaning (regeneration) of the plate-like filter 6.

Analogously to this, the bolt can also be brought from the first position (filtering position) shown in FIGS. 1 to 3 (filter position), in which both plate-like filters filter the fluid, by axially displacing the bolt 8 in the direction of arrow 19 into a position in which the Fluid supply to the plate-like filter 5 is interrupted because the end region of the second supply channel 16 is closed in a fluid-tight manner by a bolt section. Since in this position the rear fluid outflow from both cavities 9 and 10 is connected in an analogous manner, as described above, a partial flow of filtered fluid is supplied to the downstream region of the cavity 9 in the opposite direction to the flow during filtration. This partial flow flows through the filter 5 in the opposite direction to the filtering direction, so that corresponding dirt particles are detached therefrom. The partial flow laden with dirt is then removed from the device via a discharge duct constructed identically to the discharge duct 20, but which is assigned to the filter 5.

The difference is ZTJ. Figures 1 to 3, which show the bolt 8 in a filtering position (first position) and in contrast to Figures 4 and 5, which show the bolt 8 in a second position (regeneration position), Figures 6 and 7 form the bolt 8 in a third position (replacement position), the third adjusting by a further displacement of the bolt 8 opposite to the direction of arrow 19 (Figure 1) was brought about.

As can be seen from FIG. 6, in the third position of the bolt 8, the first feed channel 15 is closed fluid-tight at the end by a section of the bolt 8, so that the fluid feed to the first feed subchannel 12 and thus also to the left-hand plate-like filter 6 accordingly is interrupted. At the same time, this axial displacement of the bolt 8 from its first or second position to the third position displaces the cavity 10 and the plate-like filter 6 held therein so far out of the housing 2 that the plate-like filter 6 is freely accessible and against an unused filter can be exchanged.

The inflow of fluid to be filtered takes place via the fluid feed channel 3, the second feed channel 16 and the second feed subchannel 11, so that the fluid to be filtered flows through the plate-like filter 5, as can be seen from FIG.

Downstream of the filter 5, the now filtered fluid passes from the area of the cavity 9 via the second discharge duct 14 into the second discharge duct 17 and from there into the fluid discharge duct 4, while the first discharge duct 18 is closed in a fluid-tight manner by a section of the bolt 8. In this third position, the first discharge subchannel 13 also does not establish a fluid connection to the cavity 10, so that no partial flow of filtered fluid can be supplied to this cavity here either.

Analogously to this, the bolt 8 can also be moved from the first position (filtering position) shown in FIGS. 1 to 3 or from the second position (regeneration position) shown in FIGS. 4 and 5 by an axial displacement of the bolt 8 in the direction of arrow 19 into a third Bring position in which the fluid supply to the plate-like filter 5 is interrupted, wherein the filter 5 then protrudes so far from the housing that it can be replaced. Since in this position the rear fluid drainage only takes place via the discharge duct 13 and the first discharge channel 18 to the fluid discharge channel 4, there is no longer any fluid connection to the rear side of the plate-like filter 5, so that this filter 5 can be exchanged safely.

It has been described above that downstream of that filter, which maintains continuous filter operation when the other filter is replaced, the filtered fluid is guided into one of the two discharge channels via one of the two discharge subchannels. However, it is of course also possible for the filtered fluid to be fed from one of the two cavities downstream of the relevant filter directly into the associated discharge channel 17 or 18, or for the fluid to be filtered to be passed directly from one of the two supply channels or from both supply channels, bypassing the partial feed channels the cavity or cavities upstream of the filter or filters is supplied.

Claims

claims

1. Device for filtering a fluid, in particular for filtering a liquefied plastic, with at least one fluid supply channel and at least one fluid discharge channel, being seen in the flow path of the fluid to be filtered and at least two spaced apart from one another transversely to its flow direction between the fluid supply channel and the fluid discharge channel plate type ge filters are provided, which are mounted by a fluid-tight arranged in a housing bore, axially displaceable bolt such that the at least two filters simultaneously between a first position in which the at least two filters filter the fluid, and a second position in which at least one filter of the at least two filters opposite to the direction of flow of the fluid when filtering is flowed through with a partial flow of the filtered fluid and then this partial flow can be removed from the device to the atmosphere, while the other filter or the other filters filter or filter the fluid are movable, characterized in that the at least two filters (5, 6) can be brought into a third position in which at least one filter is located by an axial displacement of the bolt (8) (5 or 6) is in an exchange position in which it is freely accessible from the outside, while at the same time the at least one other filter (6 or 5) filters the fluid.

2. Device according to claim 1, characterized in that over the entire axial displacement distance of the bolt (8) between the first position and. the third position ensures a supply of fluid to be filtered at least to a filter (5 or 6) and removal of filtered fluid.

3. Device according to claim 1 or 2, characterized in that the bolt (8) has two, axially spaced filters (5, 6).

4. Device according to one of the preceding claims, characterized in that each filter (5, 6) is arranged in a cavity (9, 10) which extends through the bolt material and extends essentially at right angles to the bolt axis and is preferably detachably held there.

5. Device according to one of the preceding claims, characterized in that each filter (5, 6) has a partial feed channel (12,

11) and a discharge part channel (13, 14) is assigned such that in the first position of the bolt (8) both feed part channels (11, 12) with the fluid supply channel (3) and both discharge part channels (13, 14) with the fluid discharge channel (4) aligned that in the second position of the bolt (8) the supply part channel (11 or 12) of a filter (5 or 6) and the discharge part channel (13 or 14) of the same filter (5 or 6) and the discharge part channel (14 or 13 ) of the other filter (6 or 5) are aligned with the fluid discharge channel (4), the other filter (5 or 6) being connected on its inflow side to a drain channel (20), and that in the third position of the bolt (8) the feed channel (11 or

12) of the one filter (5 or 6) with the fluid supply channel (3) and the discharge part channel (13 or 14) of the same filter (5 or

6) in alignment with the fluid discharge channel (4), the flow connection of the other filter (6 or 5) to the fluid supply channel (3) and to the fluid discharge channel (4) being interrupted.

6. Device according to one of the preceding claims, characterized in that the feed part channels (12, 11) and the discharge part channels (13, 14) extend substantially in the direction of displacement (19) of the bolt (8).

7. Device according to one of the preceding claims, characterized in that the feed channels (11, 12) and / or the discharge part channels (13, 14) are each arranged at a radial distance from one another.

8. Device according to one of the preceding claims, characterized in that the feed sub-channels (11, 12) and / or the discharge sub-channels (13, 14) are provided in the bolt (8).

9. The device according to claim 8, characterized in that the feed sub-channels (11, 12) and / or the discharge sub-channels (13, 14) are each formed as an axially extending recess in the bolt jacket and that the recess together with the housing bore (7) form the respective channel (11, 12, 13, 14).

10. Device according to one of the preceding claims, characterized in that the fluid supply channel (3) in the region of the bolt (8) has a channel division with formation of a first supply channel (15) and a second supply channel (16), the angle α of the first feed channel (15) relative to the second

Feed channel (16) between 15 ° and. 90 °, preferably between 30 ° and 60 °, varies.

11. Device according to one of the preceding claims, characterized in that the fluid discharge channel (4) in the region of the bolt (8) has a channel division to form a first discharge channel (17) and a second discharge channel (18), the angle β of the first Discharge channel (17) relative to the second discharge channel (18) between 15 ° and. 90 °, preferably between 30 ° and 60 °, varies.

12. Device according to one of claims 1 to 9, characterized in that the fluid supply channel (3) in the region of the bolt (8) has a dovetail-shaped widening, wherein the end region of the dovetail-shaped widening forms a sealing surface with the bolt jacket.

13. Device according to one of claims 1 to 9 or 12, characterized in that the fluid discharge channel (4) in the region of the bolt (8) has a dovetail-shaped expansion, the end region of the dovetail-shaped expansion forming a sealing surface with the bolt casing.

14. Device according to one of claims 1 to 11, characterized in that the fluid supply channel (3) in the region of the bolt has a channel division with formation of the first supply channel (15) and the second supply channel (16) that in the first position of the bolt (8) the first feed channel (15) with the first feed subchannel (12) and the second feed channel (16) with the second feed subchannel (11) are aligned so that the first feed subchannel (12) into the cavity (9 or 10) of the first filter (5 or 6) and the second feed subchannel (11) open into the cavity (9 or 10) of the second filter (6 or 5), that downstream of the first filter (5 or 6) the first discharge subchannel (13) and downstream of the second filter (6 or 5) connect the second discharge duct (14), the first discharge duct (13) opening into a first discharge duct (18) and the second discharge duct (14) opening into a second discharge duct (17), and that the first discharge channel (18) and the second Ab Combine the channel (17) to form the common fluid discharge channel (4).

15. Device according to one of the preceding claims, characterized in that the fluid supply channel (3) in the region of the bolt (8) has a channel division to form the first supply channel (15) and the second supply channel (16) that in the second Position of the bolt (8), the second feed channel (16) is aligned with the second feed subchannel (11) and the first feed channel (15) is closed by the bolt (8) such that the second feed subchannel (11) into the cavity (9 or 10 ) of the first fil- ters (5 or 6) opens that downstream of the first filter (5 or 6), the first discharge duct (13) and downstream of the second filter (6 or 5), the second discharge duct (14), the second discharge duct (14 ) open into the second discharge duct (17) and the first discharge part duct (13) into the first discharge duct (18), that the first discharge duct (18) and the second discharge duct (17) unite to form the common fluid discharge duct (4), and that the space of the cavity (10 or 9) located upstream of the second filter (6 or 5) is aligned with a discharge channel (20) through which a partial flow loaded with dirt particles detached from the second filter (6 or 5) can be discharged to the atmosphere.

16. Device according to one of the preceding claims, characterized in that the fluid supply channel (3) in the region of the bolt (8) has a channel division to form the first supply channel (15) and the second supply channel (16) that in the third position of the Bolt (8) of the first or second supply channel (15 or 16) is aligned with the cavity of the first filter (5 or 6) so that the first or second discharge channel (18 or 17) is connected downstream of the first filter (5 or 6) , the bolt (8) projecting axially out of the housing (2) to such an extent that the second filter (6 or 5) is freely accessible from the outside.

17. Filter arrangement for filtering a fluid, in particular for filtering a liquefied plastic, characterized in that the filter arrangement has at least two, preferably two to six, devices (1) according to, one of claims 1 to 16, wherein the fluid supply channels (3) and the fluid discharge channels (4) are combined into a single fluid feed channel and into a single fluid discharge channel.

18. Filter arrangement according to claim 17, characterized in that the two to six devices (1) are arranged in a common housing (2).