EP1737552A2

EP1737552A2 - Method and device for attending to, filtrating and cleaning a working medium

Info

Publication number: EP1737552A2
Application number: EP05716212A
Authority: EP
Inventors: Zbigniew Combrowski
Original assignee: Z-FILTER GmbH and Co KG
Current assignee: GKD Gebr Kufferath AG
Priority date: 2004-03-22
Filing date: 2005-03-18
Publication date: 2007-01-03
Also published as: DE102004052098A1; DE202004021373U1; WO2005094964A3; US20070278162A1; WO2005094964A2; JP2007529315A

Abstract

The invention relates to a method for attending to, filtrating and cleaning a working medium using at least one filter (2) in a filter housing (1) which adjoins a discharge device (4) for a filter cake. According to the invention, the filtered out particles are gradually compacted in the discharge device (4) to give the filter cake and the compacted filter cake is discharged once it has reached a predetermined thickness.

Description

Method and device for maintaining, filtering and cleaning a working medium

The invention relates to a method for maintaining, filtering and cleaning a working medium with at least one filter in a filter housing, to which a discharge device for a filter cake is connected, as well as a device for this and a discharge device.

STATE OF THE ART

Working medium to be cleaned should be understood to mean all conceivable media from the industrial and / or private sector which are to be freed of particulate contaminants. These include in particular cooling lubricants, oil, grinding water, car wash water and wash baths, water from the pharmaceutical industry or chemistry or from food production. But these are just examples.

BESTATIGUNGSKOPIE A device of the above type is known from DE 101 40 709 A1. There, the working medium is fed to at least one filter via at least one line, the filter forming at least one filter surface through which the working medium flows. The filtrate then arrives at a filtrate outlet, while the filtered particles are brought to a sedimentation chamber. There, the filtered particles sink down, bake together and are then removed through a valve, a slide or a pneumatic, mechanical or hydraulic flap. It is also conceivable that they are pushed out by a discharge piston.

TASK

The present invention has for its object to provide a method and an apparatus of the above. Provide a way in which the discharge of the filter cake is significantly improved.

SOLUTION TO THE TASK

To solve this problem, on the one hand, the particles filtered out are pressed in stages in the discharge device to the filter cake and the pressed filter cake is discharged after reaching a predetermined thickness.

This means that the filter cake is subjected to a much better compression and comes out of the discharge device almost dry. On the one hand it can be disposed of better, on the other hand most of the working medium is pressed out of it, which can then get back into the working process. This saves working medium.

The work of the plunger is preferably controlled on the basis of its stroke and its pressure. Initially, a relatively low pressure is chosen so that the filtered particles are simply pushed together. If the filter cake has reached a certain thickness, the pressure can be increased continuously become. In many cases, however, increasing the pressure towards the end of the work cycle is sufficient. This ensures that the filter cake contains as little liquid as possible.

At the same time, the stroke of the plunger is monitored, which determines the thickness of the filter cake. This is done using displacement sensors of any design. As soon as the filter cake has reached a prescribed thickness, the pressure of the plunger is increased and / or the filter cake is ejected.

Pressing the filtrate back out of the filter cake into a feed funnel has the advantage that there is constant movement in the feed funnel, so that there is no caking of particles to be discharged, which may clog the feed funnel.

Another method according to the invention also refers to the last-mentioned feature, for which protection is sought independently, but which should be used in particular in connection with the method just described. According to this method, the medium is to be moved, in particular swirled, shortly before and / or at the transition between the filter housing and the discharge device. This ensures that there is no bridging of particles in this area, which would clog the funnel.

In a further method according to the invention, for which protection is also sought independently, the filter housing can be pressurized to discharge the filter cake and / or the filter cake can be suctioned out of the discharge device. There is no need to press the filter cake here. It is only important that the discharge takes place quickly, ie the filter housing is emptied quickly. This is guaranteed by the excess pressure generated or by suction. It is preferably considered that the filter is backwashed at time intervals. There are several possibilities here. On the one hand, a medium should be applied to the inside of the filter so that the sludge lying on the outside of the filter is lifted off the filter surface. This can be done, for example, by means of compressed air or else by means of a filter pump which acts on the filter from the inside to the outside with a medium, in particular with filtrate. A further medium is then or simultaneously applied to the filter surface, for example this can be the working medium itself to be cleaned. It is also conceivable to provide rinsing nozzles by means of which the filter, the filter space, the feed funnel and also the discharge device are rinsed.

Protection is specifically claimed for a preferred backwashing process which includes another method of particle removal. For this purpose, the feed pump of the filter for the working medium is switched off before the backwashing process in order to depressurize the inner housing of the filter. The housing must be emptied quickly so that an effective backwashing can be carried out and the particles can be better removed. For this purpose, a rewind pulse is preferably initiated and / or a valve on the system housing is opened in order to thus accelerate the outflow of the medium in the filter via the filter pump or a separate valve.

With a corresponding device, a pre-chamber should be separated from a press chamber in the discharge device. A corresponding press piston first passes through the pre-chamber and pushes the sedimented particles into the press chamber. There the particles are pressed together and pressed into the filter cake.

The press chamber is closed by a slide. This slide can be opened as required, for example if the filter cake is one has reached a predetermined thickness. Actuators for the slide and slide themselves are commercially available, so that a more detailed description can be omitted.

The plunger is preferably part of a piston / cylinder unit that can be operated pneumatically or hydraulically. It is designed so that it can pass through the antechamber and press chamber. In cross-section, it is advisable that it is cylindrical, but other cross-sections are also conceivable and should be encompassed by the invention.

The piston or at least its outer surface is made of plastic, which has the advantage that, for example, chips can eat into the plastic shell without welding to the chamber.

Otherwise, the plunger and its seal are designed in such a way that pressed filtrate can get back into the feed funnel.

The above-mentioned swirling of the medium in the feed hopper towards the discharge device is brought about for simplicity in that the working medium to be introduced can penetrate the hopper through corresponding passages. For this purpose, corresponding passages can be formed in a funnel wall, but for the sake of simplicity, a funnel wall or an impact wall inserted into the funnel should be at a distance from a side wall, so that working medium can penetrate into the funnel through the resulting slot and produce vortices there.

It is also possible to provide the filters, the filter chamber, the feed funnel and the discharge device with nozzles in the interior or exterior of the filter housing and thus optimize the removal of the filter cake to the discharge device and the simultaneous rinsing of the areas mentioned. The discharge device described above forms an independent component, or the like to other filter devices. can be applied. For this reason, protection is also sought separately for this element.

It is also possible to use this system in a low-cost variant, without the above-mentioned. Operate discharge device (contains press piston and press chamber), which is only provided with a valve, a slide or a pneumatic, mechanical or hydraulic flap.

The slide can also serve to safely separate the compressed sludge, ie the briquette, from the piston so that it is not drawn back into the pressing chamber when the piston is pulled back. In this case, the slider pushes the briquette away from the piston so that it falls off.

DESCRIPTION OF THE FIGURES

Further advantages, features and details of the invention result from the following description of preferred exemplary embodiments and from the drawing; this shows in

Figure 1 shows a cross section through an inventive device for

Maintenance and cleaning of a working medium;

Figure 2 is a plan view of a discharge device according to the invention;

Figure 3 is a reduced and perspective view of the

Discharge device according to FIG. 2;

Figure 4 shows a cross section through the discharge device according to Figure 2 along line IV-IV.

A device P according to the invention for maintaining and cleaning a working medium has a preferably closed filter housing 1. Such a filter housing 1 is described, for example, in DE 101 40 709, to which particular reference is made. Accordingly, only the parts essential to the present invention are described in more detail below.

The filter housing 1 consists of two side walls, only the rear wall 2 of which is shown, and a housing jacket 3 which is inserted between the two side walls. The housing jacket 3 forms a funnel 5 downward towards a discharge device 4, through which particles filtered out can reach a discharge chamber 6 of the discharge device 4.

In the housing jacket 3 there are filter surfaces 7 which serve to filter out particles from the working medium to be cleaned. The working medium to be cleaned is introduced here Embodiment from below behind a baffle 8 in the funnel 5. A corresponding inlet 9 is only hinted at.

The discharge device 4 connects directly to the funnel 5 with an opening 10 (see FIGS. 2 to 4). The opening 10 is cut into a tube 11. The discharge chamber 6 and a cylinder space 12 for receiving a press piston 13 are located in the tube 11. The press piston 13 is preferably made of plastic and is connected to a piston rod 15 via a threaded bolt 14. This piston rod 15 moves under the pressure of a pressure piston 16 in a pressure chamber 17 of a corresponding piston / cylinder unit 23.

Compared to the cylinder chamber 12, the plunger 13 is sealed at the front by an annular seal 18.1 and at the end by two ring seals 18.2 and 18.3. The ring seal 18.1 is designed such that it allows liquid to pass through. However, the ring seal 18.1 is not required for every application.

The discharge chamber 6 is subdivided into a prechamber 19 which connects directly to the funnel 5 and a pressing chamber 20 which adjoins the prechamber 19 approximately horizontally. The pressing chamber 20 is closed by a slide 21 which can be moved by a corresponding drive 22.

The operation of the present invention is as follows:

Working medium to be cleaned flows into the filter housing 1 via the inlet 9, wherein it is guided through the baffle 8 to the filter surface 7. According to the invention, however, a smaller part of the working medium should also be able to flow into the funnel 5, which is made possible by the fact that the baffle 8, for example from the rear wall 2, not shown in more detail, maintains a distance, so that a slot is formed between the baffle 8 and the rear wall 2 , This working medium flowing into the funnel 5 has the advantage that it creates turbulence there, so that the particles sinking into the funnel 5 or sedimenting there cannot combine and thus no bridges are formed which lead to a blockage of the funnel 5 ,

The particles separated from the filter surface 7 from the working medium sink downwards in the funnel 5 and fall into the prechamber 19 of the discharge chamber 6. From time to time, the plunger 13 is moved by means of the piston / cylinder unit 23, passing through the prechamber 19 and the particles are transported from the pre-chamber 19 into the pressing chamber 20. There he presses the particles with a pressure of e.g. B. 15 bar to 100 bar together. The filtrate pressed out flows along the gap between the press piston 13 and the inner wall of the press chamber 20 via the ring seal 18.1 to the rear into the antechamber 19 and is pressed up there into the funnel 5. This also results in a flow in the transition from funnel 5 to prechamber 19, which counteracts the bridging of the sedimenting particles.

When the press piston 13 passes from the pre-chamber 19 to the press chamber 20, it can occur in the edge region that, for example, chips are carried along by the jacket of the press piston. Since the jacket of the plunger is made of plastic, the chips press into the plastic so that the plunger does not become stuck in the press chamber 20. At the same time, the chips in the plastic jacket of the plunger also produce grooves via which a return the filtrate from the press chamber 20 is facilitated. There is no cold welding as with conventional metal pistons.

The work of the plunger 13 creates a filter cake briquette in the press chamber 20 which is very compressed. This reduces the extension of the plunger over time. This exit path and the one through the The pressure applied to the plunger is monitored by a control system, not shown in detail. If, for example, the plunger no longer reaches a certain displacement sensor, this means that a filter cake of the appropriate thickness has been reached. The next time the plunger is lifted, the filter cake should be compressed again very strongly, for which purpose, for example, the working pressure of the plunger is increased to 50 bar. After this working stroke, the slide 21 is opened by means of the drive 22 and the filter cake can be ejected from the pressing chamber 20 by the pressing piston 13.

Should it be necessary to replace the plunger 13, this is also done in a very simple manner. The plunger 13 is extended as far as possible when the slide 21 is open. As a result, the threaded bolt 14 is accessible so that it can be attacked and released by an appropriate tool. Instead of the threaded bolt 14, a corresponding extracting tool is now screwed into the front of the plunger 13 so that the plunger 13 can be pulled out of the discharge chamber 6.

According to the present invention, the discharge device 4 and inlet 9 for the working medium to be cleaned are at the lowest point of the filter housing 1. If this is emptied after the end of the filtering cycle, a negative pressure is created in the filter housing 2, as a result of which the filter surface 7 is washed off. The corresponding sludge parts fall down into the funnel 5 and from there into the discharge chamber 6. This improves the cleaning of the filter surface 7.

At the start of the filtering cycle, the inlet 9 is preferably oriented such that a jet of the working medium to be cleaned hits the filter surface 7 directly. As a result, this jet also injects the filter surfaces 7 cleanly and the sludge flows through the funnel 5 into the discharge chamber 6. DR. PETER WEISS & DIPL.-ING. A. BRECHT Patentanwälte European Patent Attomey

Case number: P 3131 / PCT Date: 03/18/2005 W / HU Item number list

Claims

1. A method for maintaining, filtering and cleaning a working medium with at least one filter (2) in a filter housing (1), to which a discharge device (4) for a filter cake is connected, characterized in that the particles filtered out in the discharge device (4) pressed in stages to the filter cake and the pressed filter cake is discharged after reaching a predetermined thickness.

2. A method for maintaining, filtering and cleaning a working medium with at least one filter (2) in a filter housing (1), to which a discharge device (4) for a filter cake connects, characterized in that the medium shortly before and / or during the transition between filter housing (1) and discharge device (4) is moved, in particular is swirled.

3. Method for maintaining, filtering and cleaning a working medium with at least one filter (2) in a filter housing (1), to which a discharge device (4) for a filter cake connects, characterized in that the filter housing is pressurized to discharge the filter cake and / or the filter cake is sucked out of the discharge device.

4. The method according to any one of claims 1 to 3, characterized in that the filter is backwashed at intervals, wherein the backwash pulse may also be used to discharge the filter cake.

5. The method according to claim 4, characterized in that air or another pressure medium, in particular filtrate, is introduced into the filter interior.

6. The method according to claim 4 or 5, characterized in that the filter is acted upon from the outside during the backwashing process with working medium or another flushing medium.

7. The method according to claim 6, characterized in that the loading takes place via rinsing nozzles which are aligned on the filter.

8. The method according to at least one of claims 1 to 7, characterized in that the thickness of the cake is determined by a path measurement or automatically when a certain thickness of the briquette of a press piston (13) is reached.

9. The method according to any one of claims 1 to 8, characterized in that a pressure of the plunger (13) is determined.

10. The method according to claim 9, characterized in that a pressure of the plunger (13) is increased in the last pressing stage.

11. The method according to at least one of claims 1 to 10, characterized in that the filtrate from the filter cake is pressed back into a feed funnel (5).

12. Device for carrying out the method according to at least one of claims 1 to 11, characterized in that a funnel (5) opens from the filter housing (1) into a prechamber (19) of the discharge device (4), to which a pressing chamber (20) connects, the Pre-chamber (19) and the press chamber (20) is assigned a press piston (13).

13. The apparatus according to claim 12, characterized in that the pressing chamber (20) is closed by a slide (21).

14. The apparatus of claim 12 or 13, characterized in that the plunger (13) is assigned at least one sensor for determining the position of the plunger (13).

15. Device according to one of claims 12 to 14, characterized in that the plunger (13) is connected to a piston rod (15) via a threaded bolt (14) which is inserted into the plunger (13) from the end face.

16. The device according to at least one of claims 7 to 15, characterized in that at least the outer surface of the plunger (13) consists at least partially of plastic.

17. The apparatus for performing the method according to at least one of claims 1 to 16, characterized in that a funnel (5) opens into a prechamber (19) of the discharge device (4) from the filter housing (1), a wall (8) of the Funnel itself or a funnel (5) has or forms at least one opening for the passage of a liquid into the funnel (5).

18. The apparatus according to claim 17, characterized in that the wall (8) at least partially maintains a distance from a side wall (2) of the filter housing (1).

19. Device according to claim 17 or 18, characterized in that the wall (8) forming the passage can be flowed against by the working medium flowing into the filter housing (1) and to be cleaned.

20. discharge device (4) for discharging a filter cake, characterized in that a pre-chamber (19) for receiving filtered particles is followed by a press chamber (20) and both chambers (19, 20) are assigned a press piston (13) and the path of which is monitored by sensors , wherein the pressing chamber (20) is closed by a slide (21).