DE102005017328B4 - liquid separation - Google Patents

Abstract

A liquid separation device for separating liquid or liquid mist from a gas stream having a plurality of at least two separation elements, wherein the plurality of separation elements are arranged in the gas flow parallel to each other, and
wherein at the inlet and / or at the outlet of at least one separating element a valve (1) for releasing or blocking the gas passage is arranged by the separating element, which is held in each case by a magnetic force of predetermined strength in at least one open position and / or in its closed position,
characterized,
that at the outlet of each of the separation elements a separate lock space for collection of the separated liquid is arranged.

Description

The The present invention relates to a liquid separation apparatus for the separation of liquid or liquid mist from a gas stream according to the preamble of claim 1. Such Separating devices are used in particular for the separation of water or water mist from gases, such as the exhaust air of a Fuel cell or also for the separation of oil or oil mist from crankcase gases, needed.

The EP 1 389 486 A1 For example, shows a cyclone with a pressure control valve. This valve is designed as a switching valve that engages in its open position or in its closed position. For this purpose, locking balls are arranged on the valve body, which protrude laterally from the valve body under a bias. These balls can now engage in two different positions of the valve and thus anchor the valve body either in the open position or in Ge closed position. A transition between these two positions is possible only against the force of a spring between the balls.

These Valve construction allows Although the construction of a digital switching valve, the only between two different positions, but it is extremely susceptible to interference, there the locking mechanism can very easily pollute.

The DE 102 05 981 A1 shows an application for the switching of valves or by. It discloses a cyclone arrangement of at least two cyclones used for separating oil from crankcase gases. The use of multiple small cyclones instead of one large cyclone is advantageous in this application. However, since a cyclone has only a single optimum operating point in the ratio of flow to pressure loss, the number of cyclones switched on must be changed as a function of the media throughput. A sliding shutdown of a cyclone is not useful, since the only partially and not completely switched off cyclone influences the overall result of the deposition significantly negative. Accordingly, the shows DE 102 05 981 A1 a device in which the inlet of the cyclones can be covered by a slide. By suitable geometric design of the slide, it is possible to turn on or off in different slide positions a different number of cyclones. The disadvantage here is that any intermediate positions are possible, so that the disadvantage described in the only partial shutdown of a cyclone is not eliminated.

The DE 103 09 278 A1 discloses a device for separating liquid from a gas stream, in which a plurality of parallel-connected separation elements are provided in the gas stream. The inlet side of the separation elements is regulated by a valve at least for some of the separation elements separately from other ones of the separation elements.

The DE 198 60 154 A1 discloses a switching valve disposed downstream of an oil mist separator. This opens only above a predefinable pressure difference. At low pressure difference, for example when the engine is switched off, it is thus possible to prevent an influx of oily air originating from the crankcase into the air intake region of the engine.

The WO 96/21101 A1 also relates to an oil separator for blow-by gases of an internal combustion engine. In this case, the blow-by gases are returned to the intake tract of the internal combustion engine, wherein in the line an oil filter for the separation of oil from the blow-by gases is arranged. This filter can be switched by a valve.

The DE 196 26 290 A1 discloses an electromagnetic valve for use in dusty or oily air. It can be used, for example, as a shut-off valve of a ventilation system for the crankcase of an internal combustion engine.

It It is therefore the object of the present invention to provide a liquid separation device to create with a switching valve, which ensures that the respective Liquid separation device either Completely completely or completely is turned off and the valve has a low tendency to fouling having. Furthermore, it is an object of the present invention, uses Inventive separation devices to disposal to deliver.

These Task is by the Flüssigkeitsabscheidevorrichtung according to claim 1 and uses according to claims 16 and 17 solved. advantageous Further developments of the Flüssigkeitsabscheidevorrichtung invention become dependent claims 2 to 15 given.

The Separating device according to the invention can in particular for the separation of oil and / or oil mist from crankcase gases or of water and / or water mist from the exhaust air of a fuel cell be used.

According to the invention, the liquid separation device has a plurality of separation elements, which are arranged parallel to one another in the gas flow. Each of the separation elements is a separate blocking space (for example tank, Si phon, capillary, wick) associated with the collection of fluid separated from the fluid. As a result, a pressure equalization between the individual separation elements via the liquid outlet can be avoided.

According to the invention the liquid separation device a valve on, in its open and closed positions respectively is held by a magnetic force. Is formulated differently the transition between the open position and the closed position by a magnetic force so difficult that the transition between these two Positions must overcome a magnetic force.

This can, for example, in a valve according to the EP 1 389 486 A1 such that the valve body guide comprises a magnet, advantageously a permanent magnet or an electromagnet. The valve body in turn may have a corresponding poled magnet or a paramagnetic or ferromagnetic material. The magnet in the valve body guide is arranged so that the valve body is pressed either in the open position or in the closed position of the valve body. In any intermediate position, the magnet in the valve body guide is intended to exert a force on the magnetic element in the valve body which moves the valve body either to the full open position or to the full closed position.

When valve body For example, valve disks come into question here. Alternatively it is it is also possible as valve body to use a diaphragm of a diaphragm valve. The membrane is then also provided with a magnetic element, so that they by magnetic forces be pressed in an open position or in a closed position can.

advantageously, is still a clamping body provided, the valve body in a certain position, such as the open position or the closed position, biased. The other position is then achieved due to the magnetic forces.

at the valve according to the invention a erfindungsge MAESSEN Flüssigkeitsabscheidevorrichtung is So it is a digital switching valve, so a switching valve, which can only assume discrete positions, for example a closed position and a very specific open position or more very defined open positions.

in the If electromagnets are used, it is not necessary respective spring forces and surfaces the valve body to be observed. It is then possible active over the valve to switch the electromagnets. The circuit can, for example due to signals from the electronic engine management of a Motors done. This can be done over a suitable sensor that monitors the condition of the engine, in particular the throughput of blow-by gases, the on-board electronics be made to switch the valves. This is especially useful when a plurality of separation elements switched differently to be, for example, depending on the engine state, two or three separation elements of a plurality of separation elements to be switched off or switched on.

in the Trap that has a separating element with more than two openings used, for example, a conventional cyclone, must of course Switching the separating element all but one opening, which can remain open, open at the same time or closed. It is then a variety of valves according to the invention required. As a result, uncontrolled fluid flows in the opposite direction prevents the respective shut-off separator.

in the Trap of separation elements with only one inlet and one Outlet, as for example in Röra renabscheidern, it is sufficient, of course, just one of the openings above Close the valve.

Especially it is advantageous if the inside of a Flüssigkeitsabscheidevorrichtung used separator elements are similar, such as cyclones the same dimension.

in the The following are some examples of liquid separation devices according to the invention described. It will be for same or similar Elements same or similar Reference numeral used.

It demonstrate

1 a poppet valve for use in a liquid separation device according to the invention;

2 a diaphragm valve for use in a Flüssigkeitsabscheidevorrichtung invention;

3 another diaphragm valve for use in a Flüssigkeitsabscheidevorrichtung invention;

4 another membrane valve for use in a liquid separation device according to the invention,

5 another valve for use in a Flüssigkeitsabscheidevorrichtung invention; and

6A to 6C individual operating states of the valve according to 5 ,

1 shows a valve 1 with a housing element 2 that a bore 18 having. In this hole 18 becomes a valve body 3 guided, at one end with a flange in the form of a sealing plate 5 is provided. This sealing plate 5 protrudes over the corresponding end of the housing element 2 out.

On the surface of the housing element associated with the sealing plate 2 are on the one hand valve openings 7a and 7b arranged, with the valve open, the passage of a fluid between a pressure side 20 and a suction side 21 enable. Radially outwardly spaced from the valve ports 7a and 7b is a sealing ring 6 arranged. This sealing ring runs around the cylindrical valve 1 on the surface of the housing element 2 around the valve openings 7a and 7b around.

The valve body 3 has a flange at its other end 8th on which a spring 10 supported. This spring surrounds the cylindrical part of the housing element 2 and supports with its other end to the sealing plate 5 remote surface of the housing element 2 from. As a result, with a suitable choice of the spring 10 the valve body 3 biased so that he with the sealing plate 5 against the housing element 2 and the sealing ring 6 is pressed. The valve is normally closed.

In the wall of the cylindrical part of the housing element 2 are two permanent magnets 12a and 12b arranged, whose north pole in the direction of the sealing plate 5 and its south pole in the direction of the flange 8th has.

Inside the valve body 3 is also a permanent magnet 11 arranged so that it is one to the magnet 12a and 12b has reverse polarity.

In the in 1 shown position becomes the magnet 11 from the magnets 12a and 12b held in the position shown. This will be the valve 1 fixed in the closed state. With suitable suction of the fluid on the suction side 21 can the valve against the holding force of the magnets 11 . 12a . 12b and against the holding force of the spring 10 to be moved upwards, so that the sealing plate 5 from the flange 9 of the housing element 2 releases and the valve openings 7a and 7b releases. With sufficient movement of the valve body 3 up is the magnet 11 in a position where its south pole is the north pole of the magnets 12a and 12b is adjacent, redefined. The valve 1 So it is locked in its open position. If the suction force of the fluid is sufficiently lowered, then the force of the spring is sufficient 10 to the valve body 3 against those of the magnets 11 . 12a . 12b force applied to move back to the closed position. Thus, a digital switching valve is realized, which engages in its open and in its closed position. In particular, it is achieved that the valve can not assume an intermediate position.

2 shows a diaphragm valve 1 that has a similar function. This diaphragm valve 1 has two housing elements 2a and 2 B on, which define a valve interior. This valve interior is over a membrane 14 in two compartments 17 and 21 divided up. The membrane 14 has a central area that acts as a valve body 3 a valve opening 7b of the housing element 2a opposite. This valve body 3 has a flat area 5 , for the valve opening 7b can act as a sealing plate. The membrane 14 is in turn over a spring 10 that attach to the housing element 2a supported, biased so that they are sufficient by the sole use of the spring force of the valve opening 7b located away and thus the valve opening 7b releases. Laterally to the valve opening 7b are further valve openings (passages) 7a and 7a ' arranged over the fluid coming from a pressure side 20 through the valve opening 7b in the compartment 21 flows in, again from the housing element 2a can flow out. In the valve openings 7a and 7a ' are arranged helical segments (Twister), at which the deposition of heavier particles, such as oil from the fluid takes place. In the area of the housing element 2 B is also an opening 16 arranged that from the membrane 14 and the housing element 2 B formed compartment (interior) 17 connects to the outdoor area.

In the area of the sealing plate 5 is now a paramagnetic or ferromagnetic material 13 , For example, arranged from iron. Opposite him is inside the compartment 17 on the housing element 2 B a magnet 12a arranged, its south pole in the direction of the magnetic material 13 and its north pole of this magnetic material 13 is directed away. The valve opening 7d surrounding is like in the previous example 1 arranged at least one magnet, with its north pole to the magnetic material 13 and its south pole of this magnetic material 13 is directed away.

Now comes by changing the pressure conditions, for example by increasing the fluid pressure in the opening 7b the sealing plate 5 with the part 13 the magnet 12a close, so does the ferromagnetic part 13 abruptly to the magnet 12a attracted. The diaphragm valve is thus locked in the open position.

When lowering the pressure is on the clamping force of the spring 10 the membrane back in the direction of the valve opening 7b drawn. Come the part 13 doing the magnet 12b too close, it is also abruptly by a magnetic force in the direction of the valve opening 7b pulled and closed this completely.

3 shows a further embodiment of a diaphragm valve, that of the 2 is very similar.

In this case, however, there is the segment-like separation element 15 in the valve opening (flow opening) 7b , pressure side 20 and suction side 21 are now reversed, so that in the designed as a twister separator 15 separated oil from the lower opening of the valve opening 7b can be derived.

Furthermore, on the membrane 14 instead of a metal part 13 a magnet 12 arranged, the north pole in the direction of the chamber (compartment) 17 and the south pole towards the chamber (compartment) 20 has. Instead of the magnets 12a and 12b are now in this device each magnetizable elements 13a and 13b on the housing element 2 B or at the valve opening 7b arranged.

Come the magnet 12 the magnetic element 13b due to increased pressure in the chamber 17 the valve opening 7b too close, so will the sealing plate 5 and the membrane 14 due to magnetic forces even closer to the valve opening 7b pulled and then closes against the force of the spring 10 , If the pressure is lowered again, then the sealing plate 5 with the help of the force of the spring 10 from the valve opening 7b solve and then enough of the magnetic element 13a to come close. This leads to a magnetic force between the magnet 12 and the magnetic element 13a arises and the magnet 12 continue towards the magnetic element 13a emotional. So the valve is then locked in its open position.

4 shows a further embodiment of a diaphragm valve. This diaphragm valve is similar to the one in 2 , As well as in 2 this diaphragm valve has a pressure-side inlet 20 for the fluid. This inlet leads into a room, which on its upper side over a membrane 14 is closed and left and right sides each have an outlet 31a respectively. 31b having. These outlets 31a and 31b are at the same time tangential inlets for cyclones 30a and 30b , the left or right side to the inlet 20 are arranged. These cyclones 30a respectively. 30b have a separation room, the down by funnel-shaped narrowing walls 32a is limited. At the lower end of the funnel-shaped separation chamber is an outlet 33a in a calming room 34a arranged over the separated oil drop into the calming room 34a can reach. For that reassurance room 34a The separated oil is then through a bottom opening 35a respectively. 35b derived, for example via a downstream siphon.

In through the walls 32a respectively. 32b produced separating space, the fluid is placed in a circular centrifugal movement. It separates on these walls 32a respectively. 32b the oil transported in the blow-by gas. A central pipe 36a respectively. 36b as it extends upwards from the precipitation space, the purified gas discharges into another space (volume) 38 , which is above the cyclones 30a and 30b is arranged. The upper opening of these pipes 36a respectively. 36b at the same time provide valve openings 39a respectively. 39b out of this room 38 can then have a suction opening 7 the purified gas will be discharged.

The space 38 is on the one hand by the top-side walls 37a respectively. 37b as well as through the membrane 14 limited to the bottom and has as the only fluid passages the pipes 36a respectively. 36b , The top is the room 38 through a housing element 2 B limited, in which also the suction side opening 7 is arranged.

In this room 38 is now a sealing plate or valve plate 5 Arranged over the opening 39b of the pipe 36b extends and when resting on the opening 39b the pipe 36b closes. The opening 39a of the cyclone 30a is not closed by this valve plate. The valve plate is on the top side via springs 10a respectively. 10b with the housing element 2 B connected and is thus on the housing element 2 B suspended elastically.

On the underside is the valve plate 5 about an element 13 , For example, of ferromagnetic or paramagnetic material, on the membrane 14 attached.

Below this storage of the valve disk 5 about the element 13 on the membrane 14 a permanent magnet is arranged, the north pole up and the south pole down, that is perpendicular to the plane of the membrane 14 points away. In the housing element 2 B is in appropriate orientation also a permanent magnet 12b arranged.

In operation now ensures a high pressure difference between the pressure side 20 and suction side 21 the membrane 14 for the valve disc 5 ge the force of the springs 10a . 10b is lifted up and thus the permanent magnet 12a the permanent magnet 12b is approximated. If approached sufficiently, the north pole of the magnet will pull 12a and the south pole of the magnet 12b and increase the lifting movement of the valve disk 5 , This then becomes the permanent opening 39b of the cyclone 30b opened, ie it becomes the cyclone 30a the cyclone 30b switched on.

With only slight pressure difference between pressure side 20 and suction side 21 or by reversing the pressure conditions, the springs push 10a . 10b the valve plate 5 against a very weak force of the membrane 14 downward. The valve plate 5 decreases. Are the magnets 12a and 12b sufficiently far apart, the valve disc remains 5 in this position. The downward movement of the valve disk 5 is only by the support of the valve disk 5 on the pipe 36b with closure of the opening 39b limited.

By adjusting the magnetic forces between the magnet 12a and 12b and the spring forces of the springs 10a and 10b can be a hysteresis in the switching behavior of the valve disk 5 be achieved, so that a digital switching valve is realized.

5 shows another digital switching valve, in which a completely different principle is realized. Here are two annular elements 24 and 26 interlaid. These two elements can be rotated relative to each other with respect to their common axis, for example by transmitting membrane movements to the element 24 and or 26 , The annular element 24 , which has a larger diameter, in this example has three openings or passages 25a . 25b and 25c , which are each offset by 120 ° radially against each other. Furthermore, this element has 24 a permanent magnet 12d whose south pole is directed inwards. The Elements 24 and 26 in each case represent a valve and a closing body, wherein each of the elements can be considered either as a valve or as a closing body.

Furthermore, the annular element 26 three passages or openings 27a . 27b and 27c on. These passages 27a . 27b and 27c point in the circumferential direction of the annular element 26 a width at least that of the passages 25a . 25b and 25c equivalent. The passage 27b is twice as wide as the passage 27a and the passage 27c is three times as wide as the passage 27a , These passages are also each offset by about 120 ° from each other along the circumference of the annular element 26 arranged. The exact positioning comes from the following 6A to 6C out.

The internal, annular element 26 has three permanent magnets 12a . 12b and 12c , each on the scope of this element 26 are offset by a certain distance. These permanent magnets have with their north pole outward to the annular element 24 , Decisive in this arrangement is further that the magnets 12a . 12b and 12c have a distance from each other, the simp chen width of the passage 27a in the direction of rotation corresponds.

This causes each of the two annular elements 24 and 26 locked together when one of the permanent magnets 12a . 12b respectively. 12c exactly the permanent magnet 12d is placed adjacent. It thereby enables the annular element 26 with respect to the annular element 24 to lock in three different positions.

6A shows the comparison of the permanent magnets 12c and 12d so that the two annular elements 24 and 26 are locked together in the first position. The passages 27a . 27b and 27c are now arranged so that the passages 27a and 27b not the passages 25c respectively. 25a face and so here no opening from the interior of the annular element 26 to the exterior of the annular element 24 arises. However, the passage is 27c that is three times the width of the passage 27a has, arranged so that its in the right-hand direction forward edge with the forward in the right-hand direction edge of the passage 25b comes to cover. As a result, here is a passage from the inside of the element 26 to the outside of the element 24 given.

In 6B the situation is shown where the interior element 26 a little further clockwise (clockwise) is rotated further, so that the permanent magnets 12b and 12d face each other and the two elements 24 and 26 lock in this position. The passage 27a , as can be seen here, arranged so that its leading edge (all information below in the right-hand direction) with the trailing edge of the passage 25c comes to cover, so that there is no passage from the inside to the outside.

Because the element 27b already in position in 6A with its leading edge coming into line with the rear edge of the passage 25a and there the passage 27b twice as wide as the passage 27a , here arises now a passage from the inside of the element 26 through the passage 27b , the passage 25a on the outside of the element 24 ,

Furthermore, although the passage has 27c However, because it is three times the width of the passage 27a Further, there is a flow of the fluid through the passage 27c and the passage 25b given. As a result, a positioning is achieved in which the passage cross-section from the inside to the outside is twice as large as in 6A ,

In 6C is now shown the position at which the magnets 12a and 12b face each other and so the two elements 24 and 26 lock together.

Because the element 26 relative to the element 24 clockwise by the distance between the magnets 12b and 12a and thus around the width of the passage 27a has turned further, now come the passages 27a and 25c to cover. Due to the widths of the two passages 27b and 27c are also there with the respective in the element 24 existing passages 25a and 25b Openings have emerged that allow a passage of a fluid from the inside of the element 26 to the outside of the element 24 enable. Overall, therefore, lies in 6c a passage cross-section which is three times that in 6A equivalent.

By arranging another magnet following the sequence of magnets 12c . 12b . 12a at the appropriate distance, it would be possible to achieve a switching position of this valve, in which all the passages 27a . 27b and 27c no longer coincide with the passages 25c . 25a and 25b so that the valve would be completely closed.

This Valve therefore also realized a digital switching valve, wherein here several opening stages possible are.

Claims (17)

A liquid separation device for separating liquid or liquid mist from a gas stream having a plurality of at least two separation elements, wherein the plurality of separation elements are arranged parallel to one another in the gas flow, and wherein at the inlet and / or at the outlet of at least one separation element a valve ( 1 ) is arranged to release or block the gas passage through the separation element, which is held in each case by a magnetic force of predetermined strength in at least one open position and / or in its closed position, characterized in that at the outlet of each of the separation elements a separate lock space for collecting the deposited Liquid is arranged. Device according to the preceding claim, characterized in that at the inlet and / or outlet of all but one separating element or all separating elements in each case a valve ( 1 ) is arranged. Device according to one of the preceding claims, characterized in that the valve ( 1 ) is a switching valve. Device according to one of the preceding claims, characterized in that the valves assigned to different separating elements ( 1 ) with each other the same or different control variables and / or switching points for the opening and / or closing of the valve ( 1 ) exhibit. Device according to one of the preceding claims, characterized in that the control variables are selected from pressure at the inlet of the respective separation element and / or valve ( 1 ), Pressure at the outlet of the respective separating element and / or valve ( 1 ), Pressure difference between the inlet and outlet of the respective separator element and / or valve ( 1 ), Flow rate through the respective separation element and / or valve ( 1 ) and / or all separation elements and / or valves. Device according to one of the preceding claims, characterized in that the valve ( 1 ) a basic body ( 2 ) and a valve body ( 3 ), wherein the basic body ( 2 ) has a gas passage which in a closed position by means of the valve body ( 3 ) and in an open position of the valve body ( 3 ) is not closed, that the valve body ( 3 ) relative to the body ( 2 ) is movable between the open position and the closed position. Device according to the preceding claim, characterized in that the valve body ( 3 ) a magnetic, in particular paramagnetic, ferromagnetic and optionally premagnetized element ( 11 ), and on or in the valve at least one magnet ( 12a . 12b ) is arranged such that the magnetic element ( 11 ) of the magnet ( 12a . 12b ) is held in at least one position with a predetermined force in which the valve body ( 3 ) is in the closed position and / or in the open position. Device according to the preceding claim, characterized in that the valve body ( 3 ) a magnet ( 12 ), and at or in the valve at least one magnetic, in particular paramagnetic, ferromagnetic and possibly premagnetized element ( 11 ) is arranged such that the magnet ( 12 ) of the magnetic element ( 11 ) in at least one position is held with a predetermined force in which the valve body ( 3 ) is in the closed position and / or in the open position. Device according to one of the two preceding claims, characterized in that on at least one of the valves ( 1 ) the magnet is a controllable solenoid for controlled opening and closing of the valve. Device according to the preceding claim, characterized in that a control device is provided which is connected to the solenoid for opening and / or closing the Valve. Device according to one of claims 7 to 10, characterized in that in or on the valve or its base body ( 2 ) at least one electromagnet is arranged, which the valve body ( 3 ) holds in the open position and / or in the closed position. Device according to one of claims 7 to 11, characterized in that a tensioning means ( 10 ) is provided, which without concern of other forces on the valve body ( 3 ) the valve body ( 3 ) in the open position and / or closed position holds. Device according to the preceding claim, characterized in that an electromagnet upon actuation against the force of the clamping means the valve body ( 3 ) holds in the closed position and / or open position. Device according to one of the preceding claims, characterized in that the separation elements are cyclone separators. Device according to one of the preceding claims, characterized characterized in that at least two similar or different Cyclone separator are arranged side by side in the gas stream. Use of a separation device according to a of the preceding claims for the separation of oil and / or oil mist from gases, especially from oil and / or oil mist from crankcase gases or blow-by gases of an internal combustion engine. Use of a separation device according to a the claims 1 to 15 for the separation of water and / or water mist from gases, in particular water and / or water mist from the exhaust air of a fuel cell.