DE19854704C1 - Cylindrical filter element holding and pneumatic cleaning device, for fluid bed dryers in pharmaceutical and food industry use, comprises spring loaded filter, axial hollow rod, cover, and compressed air inlet - Google Patents

Abstract

The holding and cleaning device comprises a spring loaded filter element fixing ring (14), an axial hollow rod (18) on which is mounted a rotatable, multiple bore, jet cleaning insert (28), and to is which is also attached a filter end cap (22) for the distal end the filter element, a cover (32) which is carried by a cylindrical guide (44) for the slidable hollow rod (18), and a compressed air inlet (68). The cleaning insert (28) has multiple air outlet bores to direct jets of cleaning air on to the filter wall, and also cause rotation of the insert. In normal filtration operation the cover (32) is raised to allow gas/air to discharge from the filter. On initiation of the pneumatic cleaning cycle, compressed air causes relative axial movement of the guide (44), and hence closure of the cover (32) to allow the cleaning air to flow in reverse direction through the wall of the filter element.

Description

The present invention relates to a holding and cleaning device for cylindrical Filters, such as those used in fluidized bed dryers for drying bulk materials, used especially in the pharmaceutical and food industries and in which bulk material stored on perforated floors is essentially transverse drying air is applied to the conveying direction.

The drying air passed through the bulk material becomes the fluidized bed the dryer is discharged, with the exhaust air laden with particles passing through cylindrical filters is carried out to remove particle-free, filtered waste air from the fluidized bed dryer forward. The cylindrical filters must be cleaned cyclically. This is becoming more common an air flow against the direction of the exhaust air, d. H. from the inside of the Blown cylinder radially outwards. When cleaning the filter should preferably only cleaning air is transported radially from the inside to the outside, d. H. it should no exhaust air from the drying room is filtered and discharged to the outside. Out DE-A-44 29 987 is a method and one suitable for carrying out the method Nete device known. The known device has a control device Control of the supply of cleaning air with a locking mechanism Sealing element is connected, which closes the passage of cleaned exhaust air. The passage for the exhaust air is initially closed in the previously known method and only then is compressed air blown in to clean the filter, i. H. the filter ku blow off from the outside of the filter. By using a control device device and associated signal generator, the known device is proportional susceptible to failure and meets the requirements with regard to trouble-free loading drive and a robust construction is not completely justice.

According to this first aspect, the present invention is based on the object a holding and cleaning device for cylindrical filters with a simple structure admit. The holding and cleaning device according to the invention is intended to be simple and have a compact structure and in particular be robust, so that they suitable for trouble-free use, especially in a fluidized bed dryer net.

DE-A-40 09 552 describes a holding and cleaning device for cylindrical filters known, which has a rotating air nozzle within a cylindrical filter, the is essentially H-shaped and with its central web on a Hohlach se is rotatably mounted. The parallel legs of the Rotati onsluftdüse run axially parallel to the hollow axis. Although the well-known Rota tion air nozzle sweeps flat across the inside of the cylindrical filter appears the cleaning effect achieved needs improvement.

According to a second aspect, the present invention is based on the object a holding and cleaning device for cylindrical filters with improved cleaning effect.

To solve the first aspect, a holding and Cleaning device for cylindrical filters with the features of claim 1 given. The holding and cleaning device according to the invention has a fastening ring for the attachment-side end of the filter and one in the longitudinal direction of the filter extending hollow axis. The mounting ring is used for concentric rule holder of the cylindrical filter around the hollow axis, which at its distal end carries an end cover that closes the end face of the filter. Between the fastener tion ring and the end cover at least one cleaning wing is rotatably mounted.  

This design ensures in a simple manner that the cylindrical fil ter concentric to the hollow axis and thus concentric to the axis of rotation of the minde least a cleaning wing is arranged so that a uniform cleaning of the cylindrical filter is ensured in the circumferential direction.

On the exhaust side of the mounting ring is in the holding and Cleaning device also has a lid to close the passage filtered air is provided through the mounting ring, which is against the mounting ring is biased and thus clears the passage in a filter position. The lid is displaceable relative to a hollow cylinder communicating with the hollow axis. The Hollow cylinder is at least partially surrounded by an adjusting sleeve, the ge is displaceable relative to the hollow cylinder and which carries the lid. Due to the con Centric arrangement of the cover, adjusting sleeve and hollow cylinder is the part on the exhaust side the holding and cleaning device according to the invention is compact. By the formation of the actuating cylinder such that the cover in a filter position Allows passage of filtered air and at least one formed on the hollow cylinder Closes inlet opening and the cover in a cleaning position by moving the adjusting sleeve is moved so that the passage is closed and the minde at least one inlet opening is open, the supply of Reini supply air with simultaneous closure of the holding and cleaning before direction for the exhaust air to be filtered is forcibly coupled. Through the Forced coupling results in particular in a robust structure, so that the invention appropriate holding and cleaning device for cylindrical filters even with a permanent adhere to reliable operation.

To solve the second aspect of the present invention, the Invention moderate holding and cleaning device on at least one cleaning wing, whom deliform, the hollow axis is circumferential. It has been shown that in one such a helical design of the at least one cleaning wing ver better cleaning effect is achieved. The ge with such a cleaning wing Cleaned cylindrical filters, especially steel filters, follow the Reini with otherwise constant process parameters, significantly fewer pores in which particles have settled.  

Further details, features and advantages of the present invention will become apparent from the attached drawing. In this show:

Fig. 1 is a longitudinal sectional view of an embodiment of an inventive holding and cleaning device for cylindrical filters and

Fig. 2 is a longitudinal sectional view of the exhaust side portion of the ge in Fig. 1 exemplary embodiment.

In Fig. 1 an embodiment of a holding and cleaning device according to the invention for a cylindrical filter 2 is shown, which is arranged in a process chamber 4 of a fluidized bed dryer, not shown, of which only the process chamber 4 in the region of the cylindrical filter 2 surrounding walls 6 and Parts of a wall 10 surrounding a hood 8 are shown. In the area of the cylindrical filter 2 , the walls 6 , 10 extend at right angles to the central longitudinal axis of the cylindrical filter 2 and have a central opening 12 .

A fastening ring 14 is inserted into this opening 12 and connected to the walls 6 , 10 . The fastening ring 14 has a substantially frustoconical outer surface 16 , which facilitates the sliding of the fastening-side end of the cylindrical filter 2 onto the fastening ring 14 . On the filter 2 facing side of the fastening ring 14 is a hollow axle 18 is rotationally fixed to the mounting ring 14, respectively. The hollow axis 18 extends essentially over the entire axial length of the cylindrical filter 2 and has a thread for a toggle nut 20 on its free end face. The locking nut 20 presses an end cover 22 stirnsei tig against the free end of the cylindrical filter 2 and includes the surrounding of the cylindricity rule filter 2 space frontally against the process chamber 4 from.

In the area of the end cover 22 and in the area of the fastening ring 14 , bearings 24 , 26 are provided on the hollow shaft 18 . In this case, two cleaning vanes 28 are rotatably mounted on the hollow shaft 18 and held with their respective ends via these bearings 24 , 26 . The bearings 24, 26 are configured such that an in se Hohlach 18 trained cleaning air duct 30 with a not further shown Strö flow duct communicates in the cleaning wings 28th The cleaning vanes 28 have along the longitudinal extension of the cylindrical filter 2 formed outlet openings, which are arranged and designed such that the air exiting cleaning air results in an angular momentum through which the cleaning vanes 28 rotate around the Hohlach se 18 .

In Fig. 2, the upper portion of the embodiment shown in Fig. 1 is shown in a longitudinal sectional view. In this longitudinal sectional view, the essential components for operating the device are shown. On the exhaust air side, a cover 32 is arranged at a distance from the fastening ring 14 , which is frustoconical and has a flange 34 extending parallel to the end face of the filter 2 . The cover 32 is formed from bent sheet metal and surrounds a hollow cylinder 36 . The hollow cylinder 36 carries at its end facing the filter 2 a fastening supply flange 38 which is welded to the hollow cylinder 36 and which holds a hub 39 which carries the fastening ring 14 via webs 40 .

The cover 32 is arranged at the front end of an adjusting sleeve 44 which surrounds the hollow cylinder 36 circumferentially and which is displaceably mounted with respect to the hollow cylinder 36 .

Concentric to the hollow cylinder 36 and the adjusting sleeve 44 , a housing 46 is net angeord. The lower end of the housing 46, which is open to the cover 32, is designed as a cylinder 48 for a piston 50 which is connected to the adjusting sleeve 44 . The piston 50 opens to the cover 32 via a beveled surface 52 for easy assembly of the piston 50 and cylinder 48 . On the side of the piston 50 facing away from the cover 32 , a working space 54 is formed which opens to the peripheral surface of the housing 46 via a control air connection opening 56 . On the side of the working space 54 facing away from the piston 50 , a slide bearing bush 58 is provided which surrounds the adjusting sleeve 44 in a sealing manner and which seals the working space 54 on one side.

The plain bearing bush 58 has thrust rings and seals. The sliding bushing 58 is arranged in approximately half the length of the adjusting sleeve 44 , thereby ensuring that the adjusting sleeve 44 is guided securely and coaxially by the hollow cylinder 36 . The plain bearing bush 58 is supported on its end facing away from the working space 54 on a collar 60 formed on the housing 46 . On the slide bearing bush 58 , an annular groove is formed on this side, in which a thrust ring 62 is inserted.

Between the collar 60 and the front end of the housing 46 , a cleaning air distribution space 64 is formed, which opens via a cleaning medium connection opening 66 to the peripheral surface of the housing 46 . In the axial direction at the same level as the cleaning medium distribution space 64 , two inlet openings 68 are formed on the hollow cylinder 36 in the exemplary embodiment shown. In the axial direction below the inlet openings 68 , a seal 70 is provided which seals the hollow cylinder 36 with respect to the adjusting sleeve 44 and slides the adjusting sleeve 44 on the hollow cylinder 36 . The housing 46 is closed on the end face facing the fastening ring 14 by a cover 72 . The end of the cover 72 is penetrated by the thread of a threaded plug 74 , which is welded to the hollow cylinder 36 and closes the end face. The hollow cylinder 36 is connected to the cover 72 via a nut 76 screwed to the threaded plug 74 .

In the cover 72 , an annular seal 78 is provided which cooperates with the end 32 of the adjusting sleeve 44 opposite the cover 32 . The adjusting sleeve 44 and the ring seal 78 have approximately the same diameter.

In the position of the cover 32 shown in FIGS. 1 and 2, the holding and cleaning device for cylindrical filters shown is in its filter position. In this position, the cover 32 is spaced from the wall 10 , so that through the fastening ring 14 and between the webs 40 flowing filtered exhaust air (arrow F) flow into the hood 8 and can be removed from there. To actuate the holding and cleaning device, control air is passed through the control air connection opening 56 into the working space 54 in order to bring the device from the filter position shown into a cleaning position (not shown). Accordingly, the piston 50 is displaced in the direction of the spring 42 and presses the cover 32 against the force of the spring 42 . This movement of the cover 32 in the direction of the fastening ring 14 is terminated when the flange 34 abuts against the top surface of the Wan extension 10 . Then the passage of filtered exhaust air through the fastening ring 14 is laid through the cover 32 .

During this movement of the adjusting sleeve 44 moved by the piston 50 , it is guided concentrically in the slide bearing bush 58 to the hollow cylinder 36 . The in the filter position on the seal 78 abutting the end of the adjusting sleeve 44 sweeps with the movement of the adjusting sleeve 44 from the filter position into the cleaning position, the inlet openings 68 , so that under pressure in the cleaning air distribution chamber 64 applied cleaning medium through the inlet openings 68 in the hollow cylinder 36 arrives and passes through a bore formed in the flange 39 into the cleaning air duct 30 of the hollow shaft 18 and from there into the cleaning bracket 28 and flows out there.

If the control air pressure is reduced in the working space, the piston 50 resets due to the spring force of the spring 42 and thus the adjusting sleeve 44 , so that the inlet openings 68 are closed by the adjusting sleeve 44 and the passage for the filtered exhaust air between the wall 10 and the lid 32 is opened. The movement is ended when the front end of the adjusting sleeve 44 abuts the ring seal 78 . Due to the arrangement of the ring seal 78 is on the one hand effectively prevented that at the cleaning medium connection opening 66 pressurized de cleaning medium penetrates into the hollow cylinder 36 . On the other hand, the impact of the adjusting sleeve 44 against the cover 32 is damped by the ring seal 78 when it is reset to the filter position.

A position of the adjusting sleeve 44 is brought about in a simple manner by the pneumatic drive of the piston 50 . The work space 54 can be connected, for example, to the same pressure source that also feeds the pressure for the cleaning air. Access to the same pressure source results in a considerable design simplification of the holding and cleaning device for cylindrical filters. The design of the adjusting sleeve 44 causes a forced coupling of the position of the cover with the passage of cleaning air in the desired manner.

The integral design of the cylinder 48 on the housing 46 simplifies the construction of the holding and cleaning device as a whole. Since the cylinder 48 opens to the fastening ring 14 , this results in a simplified assembly. The adjusting sleeve 44 connected to the cover 32 via a welded connection is pushed onto the hollow cylinder 36 from the end opposite the fastening flange 38 . Then the piston 50 is pushed over the adjusting sleeve 44 and fixed to it in the axial direction. Finally, the housing 46 having the slide bearing bush 58 is pushed over the adjusting sleeve 44 and the piston 50 and finally screwed over the nut 76 .

The shown holding and cleaning device for cylindrical filters has the additional advantage that the hollow cylinder 36 carries the actuation for the adjusting sleeve 44 and the supply for the control air in the manner of a column. This further reduces the assembly effort. Only the fastening ring 14 has to be connected to the walls 6 , 10 of the fluidized bed dryer. A defective holding and cleaning device can therefore be replaced in a simple manner without great assembly effort.

The embodiment shown in FIGS. 1 and 2 has two cleaning vanes 28 which helically surround the hollow axis 18 . Each cleaning wing 28 is bent in the embodiment shown between the upper bearing 24 and the lower bearing 26 by 90 ° C. Practical tests have shown that with a helical, the hollow axis 18 encircling design of the cleaning wing 28 a ver improved cleaning result can be achieved on the cylindrical filter. With such a configuration, there is also a helical air flow that strikes the cylindrical filter, which leads to an improved cleaning result on the cylinder. The helical cleaning wing 28 can circulate the hollow axis 18 with a win kel greater or less 90 ° C. For example, it is possible for a single cleaning wing to extend from the bearing 24 to the bearing 26 over an angle of only 45 ° C. relative to the hollow axis 18 . With regard to the maximum order wrap angle of a cleaning wing 28 about the hollow axis 18, there is no procedural restriction. From a design point of view, however, a limitation to 180 ° C is preferable. In addition, it should be pointed out that, of course, a plurality of cleaning vanes 28 can be provided one behind the other in the axial extension of the hollow axis 18 . With such a configuration, of course, the wrap angle of each individual cleaning wing is reduced.

Claims (11)

1. Holding and cleaning device for cylindrical filters with

• - A fastening ring ( 14 ) for the fastening-side end of the filter ( 2 );
• - A hollow axis ( 18 ) extending in the longitudinal direction of the filter ( 2 ), at the distal end of which a filter ( 2 ) can be fastened at its free end on the front end from the closing cover ( 22 ) and on which at least one filter extends in the longitudinal direction of the filter ( 2 ) extending cleaning wing ( 28 ) is rotatably mounted;
• - a cover (32) filtered for closing the passage of air (F) through the mounting ring (14) provided against the mounting ring (14) is tensioned and to one with the hollow shaft (18) communicating relative hollow cylinder (36), to the peripheral surface of which is formed at least one inlet opening ( 68 ) for cleaning air, is displaceable;
• - And one surrounding the hollow cylinder ( 36 ) and compared to this displaceable adjusting sleeve ( 44 ), which carries the cover ( 32 ) and which is of the type and that in a filter position of the cover ( 32 ) the passage of filtered air (F) permits and the at least one inlet opening ( 68 ) is closed by the adjusting sleeve ( 44 ) and that in a cleaning position the passage of filtered air (F) is closed by the cover ( 32 ) and the at least one inlet opening ( 68 ) is open.

2. Holding and cleaning device for cylindrical filters with

• - A fastening ring ( 14 ) for the fastening-side end of the filter ( 2 );
• - A hollow axis ( 18 ) extending in the longitudinal direction of the filter ( 2 ), at the distal end of which the filter ( 2 ) can be fastened at its free end at the front end from the closing cover ( 22 ) and on which at least one filter extends in the longitudinal direction of the filter ( 2 ) extending cleaning wing ( 28 ) is rotatably mounted;
• - a cover (32) filtered for closing the passage of air (F) through the mounting ring (14) provided against the mounting ring (14) is tensioned and to one with the hollow shaft (18) communicating relative hollow cylinder (36), to the peripheral surface of which is formed at least one inlet opening ( 68 ) for cleaning air, is displaceable;
  in particular according to claim 1,

characterized in that the cleaning wing ( 28 ) has a helical design encircling the hollow axis ( 18 ). 3. Holding and cleaning device according to claim 1 or 2, characterized in that the cleaning wing ( 28 ) on its fastening-side En de and at its end on the cover side on the hollow axis ( 18 ) is rotatably gela gert. 4. Holding and cleaning device according to at least one of the preceding claims, characterized in that the cleaning wing ( 28 ) between its fastening-side and its lid-side end the hollow axis to 45 ° to 180 °, preferably to 45 ° to 90 ° and particularly preferably to Wraps around 90 °. 5. Holding and cleaning device according to claim 4, characterized in that two cleaning wings ( 28 ) are provided offset by 180 ° to each other. 6. Holding and cleaning device according to at least one of the preceding claims, characterized in that the adjusting sleeve ( 44 ) is pneumatically adjustable. 7. Holding and cleaning device according to at least one of the preceding claims, characterized in that the adjusting sleeve ( 44 ) is surrounded by a Ge housing ( 46 ) on which a connection ( 66 ) for cleaning medium and a connection ( 56 ) for control air and a piston ( 50 ) abutting the adjusting sleeve ( 44 ) is provided, which is displaceable in the longitudinal direction of the adjusting sleeve ( 44 ) in a cylinder ( 48 ) fastened to the housing ( 46 ). 8. Holding and cleaning device according to claim 7, characterized in that the cylinder ( 48 ) is integrally formed on the housing ( 46 ). 9. Holding and cleaning device according to claim 7 or 8, characterized in that between the housing ( 46 ) and the clamping sleeve ( 44 ) an annular cleaning medium distribution space ( 64 ) is provided, to which there are several on the hollow cylinder ( 36 ) formed inlet openings ( 68 ) open. 10. Holding and cleaning device according to claim 9, characterized in that the cleaning medium distribution space ( 64 ) is formed in the region of an end face of the adjusting sleeve and the end face of the adjusting sleeve ( 44 ) is assigned an annular seal ( 78 ). 11. Holding and cleaning device according to claim 9 or 10, characterized in that between the working space ( 54 ) of the piston ( 50 ) and the cleaning medium distribution space ( 64 ) a slide bearing bush ( 58 ) is provided for the storage of the adjusting sleeve ( 44 ).