FI77161C - Sugtorkanordning - Google Patents

Description

The invention relates to a suction dryer comprising one or more filter plates and which filter plate is adapted to be movable in connection with the material to be filtered, wherein the vacuum is adapted to be brought into connection with the filter plate to provide suction so as to filter the material so as to filter. the liquid to be filtered is adapted to be absorbed out of the material to be filtered.

The suction dryer according to the invention comprises a plurality of suitable ceramic filter plates. The plates are arranged in a circumferential structure 15 so that one of each plate is connected to a central exhaust pipe on the axis of rotation. Each filter plate is connected in one connection to that central pipe. The tiles are adapted to pass through the pool. The pool may be filled with peat or other similar desiccant. All-20 pressure is applied to the filter plates through the central pipe and the joint. Due to the porous structure of the filter plates, the sludge in the pool from which the liquid is intended to be removed travels against the suction surfaces of the plates under the effect of the vacuum applied to the center of the filter plates. The liquid in the pool sludge is further absorbed by the vacuum through the suction surfaces of the filter plates into the central space and further along one into the central pipe and out of the structure.

When the eode plates are circumferentially positioned around a central tube or shaft and the shaft is adapted to rotate, each filter plate 30 alternately moves into the basin and further rises as the axis of rotation rotates therefrom. As a result of the vacuum, the drying material adhering to the filter dust of the tiles rises up from the basin with the tiles. When the vacuum is kept on, the drying of the substance continues during this ascent, and when the substance to be dried, for example the peat, has passed to the scraper station with detachable wipers or other removal devices, i.e. scraped material and the dried material is removed from the tiles and the device.

2 77161 1 In the suction dryer according to the invention, the air surfaces of the filter plates function specifically as liquid-impregnated air surfaces, by which is meant that air (or gas in general) does not pass through the surface with the pressure differences between air and liquid used in the drying process. In the suction dryer 5 according to the invention, the object to be dried is brought into hydraulic contact with the liquid placed under a vacuum relative to the object to be dried via the track surface of a slurry impregnated with a fine-pore liquid.

In known suction drying devices, the problem has been the correct start falsification of the filtration lies 10. It is essential that the suction can be connected from the shoulder element with the suction angle plate in connection with the substance to be filtered. In addition to the timeliness of the suction, it is also essential to obtain the correct pressure vacuum inside the suction plate. These factors depend on the material to be filtered and thus the phasing 15 of the suction lie in question should be adjustable according to the material to be filtered and the filter plates used. Indeed, this falsification of filtering lies has been a major drawback and disadvantage of the known dust plotting devices. It is therefore an object of the invention to provide a suction dryer in which the filter stages have been able to be phased in from the right element and in which the filter bellows have been able to be produced in the desired size for the desired filter stages. With the suction dryer bed dispenser according to the invention, it has been possible to solve the right-start and right-duration phasing of the filter steps. According to the invention, there is provided a filter phase divider associated with a suction angle device, by means of which the filter phases have been able to be adjusted correctly.

The device according to the invention is mainly characterized in that the stator part comprises means for adjusting the start and / or end points of the filtering phases, said means forming a synchronous plate operatively connected to the stator part and changing the suction and / or flushing of the stator part. - and / or the position of the balancing orifices relative to the material to be filtered or the fixed structures of the filtering device and that there is a synchronizing plate rotatable about its central axis and the stator part si or the like and Which engages the synchronous support plate and whereby the torsion plate and the stator part are rotated by turning the torsion arm or the like.

3 771 61 1 In the device according to the invention, the rotor fluid 34 is located in a fixed position in a frame structure which transfers the filter plate to the material to be filtered, preferably on a shaft. Thus, the rotor blade is adapted to rotate with the shaft. The stator lobe and the rotor lobe are adapted to be operatively connected to each other so that the rotor lobe rotates against the stator part. The rotor blade is adapted to slide against the stator part. According to the invention, during filtration, the otherwise stator stator is arranged to be adjustable and adjustable so that the start and end slots of the filtration steps can be changed for each air plate 10. According to the invention, the stator plate comprises a synchronizing plate associated with the stator body, from which the position of the stator openings with respect to the fixed structures of the suction dryer bed and / or the filterable material in the basin is adjusted by rotating the stator part.

15

The invention will now be described with reference to some preferred embodiments of the invention shown in the figures of the accompanying drawings, to which, however, the invention is not intended to be exclusively limited.

Figure 1 shows diagrammatically the suction drying in stages.

Figure 2 shows a filter plate used in a suction dryer device according to the invention.

Figure 3 shows a cross-section of a filter plate according to the invention.

Figure 4 is a side view of a loop according to the invention and partly in a diagrammatic representation.

30

Figure 5A shows diagrammatically and in principle the loop angle object of the invention.

Fig. 5B shows a filter stage-35 of the suction dryer bed according to the invention as a slide view and a diagrammatic representation.

Fig. 5C shows the operation of a distribution device according to the invention which schedules the filtering phases and phases the filter rotor and the statator, separated from each other.

Figure 6 shows a suction-5 drying device with a distribution bed according to the invention in a sluice view and in a preferred embodiment.

Fig. 7A is a section I-I of Fig. 6 viewed in the direction of the arrows. The device arrangement used to adjust the stator part is shown.

10 Figure 7B is a oslttaiskuvanto shown in Figure 6 as viewed from the second end of the means of the arrow D ^ katsontasuuntaan.

Figure 7C shows oslttaiskuvanto respectively the second end 6 of the device, seen from the direction of arrow D ^ katsontasuuntaan.

15

Figure 7D is a partial view of the filter wheel formed by the suction dryer plates. The view is taken along the section line II-II in Figure 6.

Fig. 8A shows a divider for synchronizing the steps of a slider according to the invention in a slope view and a partial cross-sectional view. The figure shows a synchronization plate integral with the statator of the distributor.

25 Figure 8B is an end view of Figure 8A as seen from the direction of arrow D ^ katsontasuuntaan.

Fig. 9A shows another embodiment of a splitter device for adjusting and / or synchronizing lmu key lies according to the invention. Figure 30 is a partial view.

Figure 9B is an end view of Figure 9A viewed from the direction of arrow D of Figure 9A ^ katsontasuuntaan.

Figure 1 shows the suction sowing according to the invention in stages. The figure shows the flow of one suction dryer block step by step in the running process. In the figure, one suction tile is indicated by reference numeral 5 77161 1 and the direction of rotation is indicated by an arrow L.

In lie A, the dry plate is located in the basin 11 of the sludge to be dried. The false image below shows a cross-section of the filter plate 5 and, as can be seen, a vacuum and suction are arranged inside the filter plate.

In step B, the seed plate is removed from the slurry to be filtered and, as shown in the bottom view of the step, the material to be filtered is held against the ceramic tile and vacuum is maintained in the central filter space of the tile so that liquid is absorbed from the material to be filtered. The figure shows the flow of liquid in the slab structure.

In step C, the filter plate 10 is transported to a scraper station, where the removal of the filter material deposited on the surface of the device is performed by scraping.

In lie 0, the cleaning water is brought to the central space of the slab and the slab is cleaned with pressurized water.

The filter plate 10 shown in Figures 2 and 3 comprises a first air surface 11 and a second air surface 12 »between which there is a space 14 filled with granules 13. This intermediate space acts as a water space. The granules are substantially limited to the first surface 11 and the second surface 12. They act as a stiffener for the structure and, due to their granularity, do not prevent the liquid entering the central space in question from flowing »because the granules do not cause significant flow resistance. This central space 14 is led by a single IS »which can be further connected to a vacuum source to provide a flow of liquid 30 through the suction ports 11 and / or 12 to the central space 14 and further out of the filter plate 10.

The joint 15 of the slab and the edges 16 of the slab are reinforced with glaze.

The tile may further be provided with fasteners 17. These fasteners 17 may act as means for attaching the tile 10 to its base. The grain-filled space 14 supports the suction surfaces 11 and 12 against pressure.

6 77161 1 The suction plates 11 and 12 of the slab itself and the granules 13 are preferably made of a ceramic casting composition having the following composition:

- savea n. 20 Z

5 - kaolin about 30 Z

- aluminum hydroxide approx. 45 Z and - calcium carbonate approx. 5 Z.

The average waste size of the raw materials is 0.002 mm.

10

The micro-porous slab according to the invention is preferably used for drying a web-like substance such as paper, a powdery substance such as peat, a film such as wood, a porous substance. The object to be dried is brought into a hydraulic connection with the liquid placed under a vacuum relative to the object to be dried by means of a porous liquid-filled suction pump.

Figure 4 shows in more detail the basic structure of the suction angle device according to the invention.

20

The suction angle plate 18 according to the invention comprises a plurality of preferably ceramic filter plates 10. The plates 10 are arranged in a circumferential structure so that the joint 15 of each plate 10 is connected to a central exhaust pipe 19 on the axis of rotation. Each filter plate 10 is connected by a joint 20 to said central pipe 19. The plates 10 are adapted to pass through the basin 21. The basin 21 may be filled with peat or other similar desiccant. A vacuum is passed through the central pipe or shaft 19 and the hub 20 to the filter plate 10. Due to the porous structure of the filter plates, the slurry 30 in the basin 21 from which the liquid is intended to be discharged travels against the bubbles of the plates 10. The sludge water from the basin 21 is further absorbed by the vacuum through the suction surfaces 11 and 12 of the filter plates 10 into the central space 14 and further along the connections 20 into the central pipe 19 and out of the structure.

When the filter plates 10 are placed circumferentially around a central tube or shaft 19 and the shaft 19 is adapted to rotate, each filter plate 10 alternately moves into the basin 21 and further rises as the axis of rotation rotates therefrom. As a result of the vacuum, the silent material attached to the tile suction nozzles 11 and 12 with the filter plates 10 rises with the plates up from the pool 21. When the vacuum is kept on, the drying of the substance continues during this rising movement, and when the dried substance, for example peat, has moved to structure A of Fig. 3. , detachable wiping rollers or other detaching devices 30 from the material suction 11 and 12 and the dried material are transferred 10 away from the connection between the tiles and the device. The structure further comprises a support body 22 adapted to support the basin 21. The basin 21 has an outlet pipe 23. The device further comprises a desiccant storage tank 24 with a further outlet connection 25. The central rotating shaft and the pipe 19 are adapted to rotate an electric motor.

15

In the dehumidifier 18 according to the invention, the suction surfaces 11 and 12 of the filter plates 10 function specifically as liquid-impregnated suction surfaces, by which is meant that air (or gas in general) passes through the air surface with the pressure differences between slime and liquid used in the drying process. In the dust elevator 18 according to the invention, the object to be dried is brought into hydraulic contact with the liquid placed under a vacuum relative to the object to be dried via the suction surface 11 and / tal 12 of the hleno-porous liquid-impregnated plate 10. The device according to the invention is intended in particular for drying peat, but it must be emphasized that the device in question is also suitable for drying many other substances. It should be further emphasized that the liquid sucked by the device 18 according to the invention may be something else in addition to water.

Figure 5A shows a diagram of the device according to the invention and an axo-30 geometric representation. The actuator 30 is adapted to rotate the shaft 19 so that each filter plate is adapted to move alternately to the basin 21 and to the liquid to be filtered therein. The suction dryer plates 10 resting on the shaft 19 or other movable body part are adapted to rotate by rotating the actuator 30, preferably by an electric motor or a hydraulic motor 35, the shaft 19 being adapted to rotate by means of bearings 31 and 32. For example, a spreader 33, a splitting valve, which causes a lymphatic-Helde spoofing, is arranged on the shaft 19 and so that at least a part of the distributor lattice 33 is arranged to rotate in a fixed position relative to the shaft 19.

The dispenser 33, shown in principle in Figures 5B and 5C, is adapted to divide the suction steps for each suction angle plate 10 so that suction is arranged to take place at a certain position at a certain position of the suction angle plate 10 relative to the basin slurry or filtrate.

The dispenser 33 is thus adapted to divide and bleach said suction steps in the desired manner and to the desired length and duration, and the dispenser according to the invention is also adapted to phase other phases of the filtration event, such as balancing and rinsing dies.

The distributor 33 according to the invention comprises a first distributor part 34, i.e. a rotor, which is adapted to rotate with the shaft 19 and is thus in a fixed position fixed to the shaft 19. The distributor 33 also comprises a second adjustable distributor part 35, i.e. a stator, which is arranged in a fixed position for the sludge and / or 20 of the basin during the filtration. In the following, the first distributor portion 34 of the manifold 33 or the manifold valve 33 is referred to as a rotor, and the second manifold portion 35 is referred to as a stator.

According to the invention, the etcher 35 can be rotated to adjust the timing of the filtration step 25 relative to the basin and the material to be filtered therein, and thus the start and end points of the suction steps at each plate are adjusted. Likewise, this adjustment also provides for the start and end of other filter lies, such as the rinsing step. According to the invention, the distributor 33 comprises a separate synchronizing device 30 36, preferably being a synchronizing plate. By rotating the stator plate 35 from the synchronizing plate 36, the stator 35 is brought from its vacuum and flushing openings to the desired position relative to the substance to be filtered, and thus the filtration lies are timed as desired.

35 In the so-called synchronizing plate 36, the rear plate of the stator 35 is a separate adjusting device 37, by means of which the synchronizing plate 36 can be turned by the desired amount of angle with respect to the fixed pool structure and the liquid material to be filtered.

The same air time / pressure time is not suitable for lime materials, so by using the distributor 33 according to the invention, the desired adjustments can be made according to the material requirements.

Fig. 5C shows the distributor 33 according to the invention schematically in a device solution with a plurality of plate gears 101, 102 ... A distributor 33 is arranged on the shaft 19 so that the rotor part 34 of the distributor is arranged in a fixed position on the shaft 19 and rotates with it. The stator housing 35 of the distributor 33 is adapted to be in a fixed position with respect to the frame structures D and the sludge T to be filtered of the basin 21 when the adjustment has been carried out. By means of the adjusting device 37 and the synchronizing device 36, the position of the stator 35 with respect to the slurry of the basin 15 and the fixed structures D can be changed.

Fig. 5C further schematically shows the operation of the distribution device 33 according to the invention.

20 The distribution valves can be infinitely adjusted by changing the ratio between the stator and the rotor. This provides the desired annealing, suction and wear time and / or time for the process.

In addition, the vacuum can be adjusted for different sectors, by means of shut-off pins, whereby the shut-off pin divides the vacuum channel into two or more parts.

· * Delivery device 33 of a first jakolaiteosa roottorlosa 34 rotates in the direction of the arrow L ^. The second part of the distributor 33, i.e. the fixed stator housing 35, is not rotating relative to the fixed base structure D. A vacuum is introduced into the internal space of the suction angle plates 30 through the suction ducts. As shown in the figure, the device comprises a first suction channel 40 which applies a lower vacuum to the interior of the tiles and a second suction channel 42 which applies a higher vacuum to the interior of the tiles. The structure further comprises a rinsing channel 41 through which the rinsing liquid can be led into the internal space of the tiles. The stator 35 may further comprise pressure equalizing connections 44 (shown in Figure 9A).

, 0 771 61 1 The rotor part 34 rotates with the shaft 19 and the Duct connection or duct opening 34a, 34b, etc. leading to each filter plate 10a, 10a 'in the same lie is in turn connected to each abutment opening 40a, 41a, 42a of the stator groove 35. Thus, for example, the suction conductor 34a indicated in Fig. 5C first enters the second suction passage opening 40a, and the suction passage 40 further applies to the passage portion 34a and thereby to the interior of the suction plate 10. The rotor part 34 further rotates as shown by the arrow Lj and the unit 34a leading to the suction channel next enters a pressure equalization space 44 (shown in Fig. 9A), whereby the vacuum 10 of the plate interior can be equalized before the next opening 41a of the flushing channel 41 hits the suction angle plate. Through the flushing channel 41, the pressurized flushing liquid can be further led through the channel opening 34a of the rotor part 34 into the suction dryer plate 10. Further, in the next lie, after rinsing, one 34a leading to the suction baffle plate comes into contact with the suction opening 42a of the primary suction passage 42, through which the suction baffle plate 10 is again subjected to a vacuum smaller than the vacuum applied through the second suction passage 42. The suction passages 40 and 42 are most preferably connected to the same vacuum source. From each opening 34a, 34b, etc. of the rotor 34.

20 one of each plate is led to a particular suction angle plate of the gear and / or to the plates in the respective position and lie of the adjacent plate wheel.

Fig. 5C further shows a connection 51 leading from the duct 33a to the distribution valve 50, from which the suction can be applied along the ducts 52 and 53 to the suction heating plates 101, 10a 'and 102, 10a "lying in the same lie. There may be several or adjacent plate wheels a possible embodiment that only one plate wheel is used, in which case the joint 51 is led directly to the connection connection 56 leading into the suction dryer plate 10.

Figure 6 is a side view of a suction dryer according to the invention. Shaft 19 is rotated by motor 30 (Figure 5A). A distributor 33 is connected to the shaft 19 so that a rotor part 34 rotates with the shaft 19.

The fixed non-rotating part of the distributor stator 35 of the distributor 33 is fixed to the base D and during filtration the stator section 35 is in a fixed position with respect to the base structure D and the basin slurry T (Fig. 1> 77161 15C). The ends of the shaft 19 are rotatably articulated to the bearing rollers 31 and 32. The base structure D comprises a body 38 to which screws 39a, 39b with nuts 39c ^, 39c2 are attached · The nuts 390 ^, 3902 can be used to adjust the horizontal position of the rear plate or synchronization plate 37 associated with the distributor 33 . Connections associated with the manifold 33, such as the first suction passage 40 and the second loop passage 42 and the flushing passage 41, are passed through the bores of the synchronizing plate 36.

Figure 6 shows five plate wheels 101, 102, 103, 104 and 105. Each plate wheel 10 comprises a plurality of suction plates 10 in a circular sector.

From the channel openings 34a, 34b, etc. of the rotor portion 34 of the distributor 33 there is a Channel Connection 51 with a distribution valve 50 from which the suction and flushing is distributed to the parallel stage 10 and / or in the respective position of each plate wheel 101, 102, 103, 104 and 105.

15

The synchronizing device 36, preferably the rear plate of the distributor 33, is arranged to pivot about the central axis X of the shaft 19, and the pivoting of the stator 35 with respect to the frame structures D and / or the pool slurry T is also controlled by means of this pivot. In this way, the position of the openings of the stator part 20, preferably the air openings 40a, 42a and the rinsing channel opening 41a, in relation to the basin and the slurry or other material to be filtered and / or to the frame structure D can be adjusted. The synchronizing device 36 is preferably a circular plate comprising an adjusting device 37. The adjusting device 37 comprises a torsion arm 25 372 operatively engaged with the synchronizing plate 37, the torsion arm being further connected the height position of the hinge point 375 of the torsion arm 372 and thus the tensioning plate 36 is pivoted about its central axis X. The position of the screw 373 relative to the body D can be adjusted vertically by turning the screw 373 in the threads associated with the body D or by placing the screw 373 in a hole associated with the body D in a specific and desired position by means of fastening nuts 374, engaging the screw 373 in the desired position.

Fig. 7A is a section II of Fig. 6. By moving the hinge point 375 up and down, the synchronizing plate 36 is rotated with respect to the axis X and the synchronizing plate 36 is guided by horizontal screws 39a and 39b connected to and engaging the grooves 361 and 362 of the synchronizing plate. . At the center line of the screws 39a, 39b, the angular position of the synchronizing plate 36 and thus of the actuator 35 fixedly connected to the synchronizing plate 5 can be read from the scale 37S of the synchronizing plate 36. The purpose of the grooves 361 and 362 is to support and guide the synchronizing plate 36 and the stator plate 35 fixedly connected thereto. By turning the plate 36, the position of the suction openings 42, 40 and the rinsing opening 41 of the actuator 35 relative to the frame structure D and / or the material T to be filtered can be changed.

10

Fig. 7B shows a plan view of the suction drying device from the distributor 33 end of the suction machine. The figure is oslttaisku-section view taken along an arrow and Figure 6 ^ K direction. The shaft 19 is articulated to the bearing 32 in a rotary manner and the synchronizing plate 36 is connected to the fixed frame structures D so that by means of the adjusting device 37 of the synchronizing plate 36 the adjusting plate can be pivoted about the X-axis and thus adjustable. In this way, the position of the holes 42a, 40a, 41a and 43a in relation to the slurry in the basin and the lie at which the lmu-20 tile enters the sub-palletized or meets the rinsing lie can be adjusted. It can also be adjusted to start how long each suction plate is pressurized in the pool of liquid to be dried. The arrow L 1 'shows the rotation of the plate 36 and the actuator 35 about the X-axis. Both directions of rotation are possible.

The rotation is effected by means of the adjusting device 37 of the plate 36 shown in more detail in Fig. 7A and Fig. 7B. The arm portion 372 engages the coupling portion 371, and by changing the position of the arm 372, the rotation of the plate 36 and thus the position of the stator sleeve 35 is adjusted.

30 Figure 7C shows a view taken imukuivalnlaitteen 10 at the other end of the arrow K of Figure 6 ^ direction. The image is an oslttalslcuvanto.

The figure shows an actuator 30, preferably an electric motor or a hydraulic motor, which rotates the shaft 19 via a gearbox 30a.

Fig. 71) is a sectional view taken along line II-II of Fig. 6

along. The figure shows a plate gear 101 of a suction angle plate comprising a plurality of tumble dryer plates in a circular ejector; In the figure, the plates 10a, 10b, 10c, 10d, 10e, etc. are shown. The tiles are preferably so large that they fill the entire circle.

One of 56 ', 56 ", 56'", etc. leads to the internal space of each plate 10.

5 the flat 10b is led by a bridge connection 56 'which is connected to the connection 56 provided by the distribution valve 50. The distribution valve 50 is further connected via the channel 51 to the channel 34a of the rotor part 34. Correspondingly, the other plates 10c, 10d, 10e, etc. of the gear 101 have their own connection connection 56 ", 56" ', etc., which are connected to their own distribution valve 50', 50 "(not shown) and further to their own channels 34b, 34c of the rotor part. and so on.

Fig. 8 shows a stator section and a rotor section as a pedal sectional view and fitted to each other. The rotor part 34 comprises a sleeve part 341 connected to the shaft 19 and a lower part 342 connected thereto, to which an axially projecting collar part 343 is connected. , for flushing phase, pressure equalization false, etc. own orifices and channels 40,41,42 etc.

20

The stator plate 35, which is in the position of the stator ring 35 and its stator ring 351, is connected to each other by means of connecting sleeves 352, 353 and 354. There is a fixed connection between the coupling plate 36 and the stator ring 351. The channels 40, 41, 42, etc. of the stator ring 351 open a connection to the opening 34a, 34b, 34c of the rotor 34 at each respective channel, each of which is connected to a filter plate and / or filter plates in a certain lie.

Figure 8B is a view of Figure 8A, taken in the direction of arrow D of Figure 8A ^ katsontaeuuntaan. The view is a partial view. It can be seen from the figure that the flange portion 342 has a plurality of channel openings 34a, 34b, 34c, etc. leading to a single filter plate or a plurality of filter plates in the same parallel position and / or lie.

The stator ring 351 is in a fixed position during filtration with respect to the structures D and / or the pool of material to be filtered And the material to be filtered, while the rotor 34 rotates along and attached to its shaft 19. Between the end of the stator ring 351 and the flange surface 341 of the rotor flange 342 and / or the rotor sleeve 341 there is a lucico contact and latch seals which, for example in the case of Fig. 8A, keep the connection between the channels 34a and 40 tight. At the end of the pacing plate 361 of the stator ring 351, there is a lip seal 346 5 Cal some other corresponding seal which seals the connection edge of the part 343 and the stator ring 351.

Figures 9A and 9B show another preferred embodiment of the manifold 33 and the synchronizing plate 36 according to the invention. Figure 9A is a fragmentary sectional view 33 of the esltet-10 working divider 33. The opening 33N of the rotor blade lalp is connected to the pressure equalization opening 44 of the stator blade stator ring 351. The synchronous washer 36 comprises a clamping platform 60 by which the stator ring 351 is placed with a suitable force to press against the rotor and its latch 342. By turning the adjusting nuts 15 61,62, the alignment plate 36 is obtained in the desired position relative to the stator ring 351. The screw 63 is passed through the synchronizing plate 36 and its sleeve housing 64 and is further threaded into the end bore 354 of the spring cavity 352 into its threads 354 '. The spring 353 is located in the spring cavity 352 and is preferably a spray spring. The end 20 on the side of the spring synchronizing plate 36 is located against the sleeve part 64 and the other end is located against the bottom back 352 'of the cavity 352. The screw 63 is passed not only through the synchronizing plate 36 but also through the sleeve 64, whereby movement between the screw 63 and the sleeve 64 is allowed parallel to the transverse axis of the screw 63. By turning the nuts 61,62, it is possible to change the position of the synchronizing plate 36 and its sleeve 64 relative to its stator ring 35 and stator ring 351. The end portion 64 'of the sleeve 64 is caused to move and compress the spring 353, whereby the force of the spring 353 further acts on the stator ring 351 and thus the stator 35 is compressed against the rotor blade 34 and its lower part 342. In this way, the desired exfoliation volume is obtained between the end of the stator ring 351 and the latch-30 portion of the rotor flange 342, and the seals 344, 345, 466 and 347 can be compressed with the desired butter to provide sufficient tightness.

In a preferred embodiment of the invention, a seal 348 is located between the outer sheath 351 "and the inner surface of the protruding sleeve portion 343 of the rotor. The seal 348 may be any sealing agent. The seal 348 may be, for example, oil. Other materials are also possible, e.g. When the desired tightening of the axial direction of the stator against the rotor blade is achieved, the synchronizing plate 36 is locked in the desired clamping position of the sleeve 64 by the locking nut 62 by turning the screw 63 in the threads.

5

Figure 9B is the view of Figure 9A of the arrow k ^ direction. It can be seen from the figure that the firing device 60 has two pieces located symmetrically with respect to the central axis X. By means of these two cleaning devices 60, a uniform compression of the stator 35 against the rotor roller 34 is obtained. The synchronous plate 36 can be adjusted in its angular position otherwise as already shown in the embodiments of Figures 6 and 7. The adjustment device for the synchronizing plate 36 may be similar in construction to the embodiment of Figures 6 and 7.

15 20 25 30 35

Claims (5)

A suction dryer device comprising one or more filter plates (10) and which filter plate (10) is adapted to be movable with my filterable material, wherein the vacuum is adapted to be brought into contact with the filter plate to provide suction so that the material to be filtered adheres to the filter plate surface. wherein the liquid to be filtered is adapted to be absorbed from the material to be filtered · and which suction dryer device comprises a distributor (33) for timing the filter-lying data · which distributor (33) comprises a filter plate (10) in the structure transferring the filter material (10) to a rotor (34) ) and a stator sleeve (35) which can be set to adjust the filtration lie operatively connected thereto · wherein the various lies required for filtration are adapted to occur so that the vacuum in the filter plates is adapted to transmit the channels of the stator sleeve (35) and the rotor sleeve (34) through the channels when the opening (40a, 42a) of the stator housing (35) is at the movable opening (34a, 34b ...) of the rotor housing (34), and that the rotor housing (34) of the distributor (33) comprises a plurality of channel openings 20 (34a) , 34b, 34c ...), each associated with its own suction dryer plate and / or having a channel (51) to the distribution valve (50), which are further connected to suction dryer plates in respective stages or positions, characterized in that the stator part (35) comprises means ( 36,37) for adjusting the start and / or end times of the filter lie, said means consisting of a target plate (36) operatively connected to the stator housing (35) and changing the suction and / or rinsing and / or rinsing and / or rinsing of the stator housing (35) during adjustment. or the position of the pressure equalization openings in relation to the material to be filtered or the fixed structures of the filter bed and that there is a synchronizing plate 50 (36) which can be pivoted about its central axis (X) and the timing of the filtering lie is reversed by the stator part (35), and that there is a synchronizing plate (36), preferably a synchronizing plate adjusting device (37) having a torsion arm (372) or the like and engaging the synchronizing plate (36) and the torsion arm (372) or the like turning turns the synchronizing plate (36) and the stator latch (35). 17,771 61 1 Claims Device according to the preceding claim, characterized in that the torsion arm (372) is connected to the screw-on screw (373) and in this case the timing of the filter lies of the slider is adjusted by adjusting the height position of the screw point. 5 Device according to one of the preceding claims, characterized in that a scale (375) for connecting and adjusting the angular position of the synchronizing plate (36) is connected to the synchronizing plate (36). Device according to one of the preceding claims, characterized in that the distributor (33) comprises a rotor (34) mounted on the shaft (19) and having a plurality of channel openings (34a, 34b, 34c ...) which are inserted through the flange part (342) of the rotor part and which can be adapted to communicate with the channels (40,41,42) of the stationary statat-15 torl ring (351) in the fixed position, the channels (40,41,42) being passed through the stator ring (351) and that the rotor flange part (342) and the stator ring (351) have seals (344,345,346) which allow read contact between the rotor (34) and the stator (35) but ensure that pressure is transferred from the channel 20 of the stator ring (351) to the channel (34a) of the rotor flange portion (342). , 34b, etc.) or vice versa with the channels aligned. Device according to one of the preceding claims, characterized in that separate spring means (353) are provided between the stator part (35) of the distributor 25 and the synchronizing plate (36), the synchronizing plate (36) being movable towards the stator plate (35), the spring (353) the force is adapted to press the stator housing (35) against the rotor part (34) and its lower part (342), whereby a suitable pressure can be adjusted between the rotor part (34) and the stator part (35). 30 35 is 77161