DE102015212423A1 - Apparatus and method for cleaning and / or conditioning a capillary membrane - Google Patents

Abstract

The present invention relates to a device (1) for cleaning and / or conditioning a capillary membrane (2). Essential to the invention is that
- At least two series-connected, tubular cells (3, 4) are provided, which are traversed by the to be cleaned / conditioning capillary membrane (2),
- wherein at least one first cell (3) has a nozzle device (5) via which a pressurized cleaning / conditioning liquid (6) can be sprayed onto the capillary membrane (2),
- wherein at least one subsequently arranged second cell (4) comprises a suction device (8), via which a negative pressure can be generated and in the first cell (3) sprayed under pressure cleaning / conditioning liquid (6) is sucked,
- Wherein the at least two cells (3, 4) are arranged such that they can be traversed by the capillary membrane (2) in a straight line and without deflection.

Description

The present invention relates to a device for cleaning and / or conditioning a capillary membrane according to the preamble of claim 1. The invention also relates to a method for cleaning and / or conditioning such a capillary membrane.

From the DE 101 02 744 C5 a generic device for cleaning and / or conditioning a surface of a capillary membrane is known, comprising at least one Membranziehmaschine, which is designed to produce a tube membrane by phase inversion in the evaporation process. The device also has a membrane cleaning device, which is designed to bring into contact at least the side of the tube membrane to be freed from contamination with one or more cleaning agents and / or one or more cleaning devices. Also provided is at least one membrane dryer, wherein the membrane cleaning device is arranged between the membrane drawing machine and the membrane dryer. For removing the cleaning agent, moreover, one or more flushing devices is provided, with at least one nozzle for spraying the side of the pipe membrane to be freed from impurities with a flushing liquid.

From the DE 602 18 869 T2 discloses a method for producing a graft polymer membrane, in which first a dose of ionizing radiation is applied to a polymeric base film and then the irradiated base film is brought into contact with an emulsion comprising at least one fluorostyrenic monomer, wherein the amount of monomer in the Emulsion is less than or equal to 30 vol.%.

A disadvantage of the device known from the prior art, however, is their comparatively large space requirement, since the individual rinsing tanks, for example, arranged next to each other and the capillary membrane to be rinsed therein must be passed over a series of deflection rollers. The latter makes the device known from the prior art also structurally complex.

The present invention therefore deals with the problem of providing an improved and at least one alternative embodiment for a device of the generic type, which in particular enables flexible, space-saving and yet effective cleaning and / or conditioning of capillary membranes.

This problem is solved according to the invention by the subject matter of independent claim 1. Advantageous embodiments are the subject of the dependent claims.

The present invention is based on the general idea of equipping a device according to the invention for cleaning and / or conditioning a capillary membrane with a plurality of cells connected in series, which alternately spray the capillary membrane with cleaning / conditioning fluid under pressure and then aspirate it again in the respective subsequent cell. The device according to the invention for cleaning and / or conditioning the capillary membrane has at least two, preferably of course significantly more, one after the other connected, tubular cells, which are traversed by the capillary membrane to be cleaned / conditioned. At least a first cell in this case has a nozzle device, via which the pressurized cleaning / conditioning liquid is injected onto the capillary membrane, wherein at least one subsequently arranged second cell has a suction device, via which a negative pressure generated and in the first cell under pressure sprayed cleaning / conditioning liquid is sucked off again. The at least two cells are moreover arranged in such a way that they can be traversed by the capillary membrane in a straight line and without deflection, as a result of which a particularly space-saving design of the device according to the invention can be achieved. Due to the alternating arrangement of first and second cells, effective cleaning or conditioning of the capillary membrane can also be achieved, it being possible for the device to have a different number of first and second cells depending on the desired degree of cleaning / conditioning. Thus, in the device according to the invention, the capillary membrane continuously passes through a series of several cells connected in series, which alternately cause a pressure or negative pressure on the outer membrane surface and thereby also an intensive flushing of the membrane.

Preferably, the nozzle device is designed such that it injects the cleaning / conditioning fluid in the opposite direction to the membrane running direction, whereby the concentration of leached impurities in the cleaning / condition fluid along the capillary membrane is always lower.

In an advantageous development of the solution according to the invention, at least one first and one second cell have a groove on an axial end side and a spring on an opposite end side, via which the cells plugged into each other and are connected to each other. The device according to the invention for cleaning and / or conditioning a capillary membrane can thus be constructed in a particularly flexible manner by means of such cells which can be plugged into one another since, for example, more cells must be provided for a higher degree of cleaning / conditioning. Of course, it is clear that the individual cells are arranged in such a way that they can be traversed in a straight line, that is to say without deflection, by the capillary membrane to be cleaned or conditioned. Of course, however, the device according to the invention can have at least two cell packets which are arranged parallel to one another, whereby the capillary membrane is deflected after leaving the first cell packet and guided into the second cell packet. In this way, a particularly space-saving and thus space-optimized embodiment of the device according to the invention can be achieved. The individual cells are connected by appropriate connections to pressure and suction lines.

In an advantageous development of the device according to the invention, the at least one first cell and / or the at least one second cell are formed annularly closed. In an annularly closed cell formed in this way, the suction device can be designed, for example, such that it generates an air flow which is aligned almost parallel to the capillary membrane and runs in contrast to the stream of cleaning / conditioning liquid directed essentially radially or obliquely against the capillary membrane. Alternatively, of course, it is also conceivable that the at least one first cell and / or the at least one second cell are C-shaped in cross-section and thus have at least a small gap, which in particular simplifies threading of the capillary membrane at the start of the device according to the invention.

In an advantageous development of the solution according to the invention, the cleaning / conditioning liquid comprises water and / or sodium hypochlorite (NaClO). Sodium hypochlorite is the sodium salt of hypochlorous acid and in particular causes bleaching or disinfecting. Thus, with such a sodium hypochlorite solution, a particularly effective cleaning or conditioning of the capillary membrane, in particular with regard to its surface treatment, can be achieved.

The invention is further based on the general idea of specifying a method for cleaning and / or conditioning a capillary membrane in which at least two tubular cells connected in series are passed in a straight line and without deflection from the capillary membrane to be cleaned / conditioned. At least one first cell injects a pressurized cleaning / conditioning liquid onto the capillary membrane via a nozzle device, whereas at least one subsequently arranged second cell generates a negative pressure via a suction device and sucks the cleaning / conditioning liquid sprayed under pressure in the first cell, especially also removed from the pores of the capillary membrane. By virtue of such tubular-shaped cells, which are traversed rectilinearly by the capillary membrane to be cleaned / conditioned, it is possible, in particular, to accelerate several successive desired cleaning and / or suction processes and to make the rinsing out of solvent and additive residues more effective. This is done in particular by keeping the cleaning / conditioning liquid constantly moving around the capillary membrane, which lowers the diffusion layer thickness at the outer membrane surface and accelerates the diffusion of solvent and additive residues from the capillary membrane. By sprayed under pressure cleaning / conditioning fluid passes into the pores of the newly formed capillary membrane, and is removed by means of the suction due to the negative pressure generated by this again. In this way, at least a slight flow through the pores and thus through the capillary membranes can be achieved, whereby they can be rinsed more intensively. It should be understood, of course, that the porous structure of the capillary membrane is already largely formed and the rinsing parameters are allowed to mechanically stress the capillary membrane only to avoid deformation of the pore structure and / or the entire capillary membrane in any case.

Other important features and advantages of the invention will become apparent from the dependent claims, from the drawings and from the associated figure description with reference to the drawings.

It is understood that the features mentioned above and those yet to be explained below can be used not only in the particular combination given, but also in other combinations or in isolation, without departing from the scope of the present invention.

Preferred embodiments of the invention are illustrated in the drawings and will be described in more detail in the following description, wherein like reference numerals refer to the same or similar or functionally identical components.

Show, each schematically

1 a device according to the invention for cleaning and / or conditioning a capillary membrane in a sectional view,

2 a sectional view through a nozzle device of a first cell of the device according to the invention,

3 a view of the nozzle device according to the 2 .

4 a sectional view through a suction device according to the invention,

5 a non-invention embodiment with a plurality of successively arranged first cells,

6 a representation similar to the 5 ,

According to the 1 to 4 has a device according to the invention 1 for cleaning and / or conditioning a capillary membrane 2 at least two tubular cells connected in series 3 . 4 that of the capillary membrane to be cleaned / conditioned 2 to go through. According to the 1 are just two such cells 3 . 4 shown in more detail graphically. At least a first cell 3 has a nozzle device 5 (compare also the 2 and 3 ), via which a pressurized cleaning / conditioning fluid 6 via appropriate nozzles 7 on the capillary membrane 2 be sprayed. The device according to the invention 1 also has at least one subsequent to the first cell 3 arranged second cell 4 on which a suction device 8th has (compare also 4 ), via which a negative pressure can be generated and that in the first cell 3 Pressurized cleaning / conditioning fluid 6 can be sucked off again. The at least two cells 3 . 4 are arranged such that they from the capillary membrane 2 can be traversed straight and without diversion. According to the 1 In this case, a device is shown which has a total of two cell packets 9 . 10 which are arranged parallel to each other, so that the capillary membrane running therein 2 via a pulley 11 once must be redirected. Both the feeding and the suction of the cleaning / conditioning liquid 6 takes place via appropriate pumps 12 . 13 ,

Looking at the individual cells 3 . 4 according to the 2 and 4 closer, it can be seen that this on an axial end face a groove 14 and on the opposite end a spring 15 over which the cells 3 . 4 plugged into each other and are connected to each other. This makes it possible in a particularly simple manner, different devices 1 , in particular different in terms of their cleaning and conditioning ability by arranging different numbers of cells 3 . 4 manufacture. If, for example, only a low cleanability is required, two cells are sufficient in the best case 3 . 4 while at higher purification and / or conditioning requirements, for example, ten or more cells 3 . 4 can be switched alternately one behind the other. This makes it possible to achieve a particularly flexible construction of the device according to the invention. The individual cells 3 . 4 can be closed annularly either in cross section, as for example according to the 3 is shown, or even an axial slot 16 have (compare 1 ), which in particular the threading of the capillary membrane 2 much easier. "Tubular" should thus not necessarily mean annularly closed in this case, but may also have a C-shaped cross-section with an axial slot 16 include.

As cleaning / conditioning fluid 6 For example, water and / or sodium hypochlorite (NaClO) is used, which not only provides effective and effective cleaning and cleaning of the capillary membranes 2 is possible, but also an equally effective removal of, for example, additive residues.

Looking at the nozzle device 5 according to 2 and 3 , it can be seen that this is designed such that they the cleaning / conditioning liquid 6 essentially radially against the capillary membrane 2 splashes and thereby penetration of the cleaning / conditioning fluid 6 through individual pores of the capillary membrane 2 in their interior allows. The individual nozzles 7 the nozzle device 5 Of course, they can also be oblique to the axis of the first cell 3 , and thus obliquely to the capillary membrane 2 be aligned. It is also conceivable that the nozzle device 5 is formed such that it surrounds the capillary 2 flowing vortex of cleaning / conditioning liquid generated, which in particular counter to the direction of movement of the capillary 2 is.

About the suction device 8th will be in the first cell 3 sprayed cleaning / conditioning fluid 6 sucked off again, of course, both the injection overpressure and a Absaugunterdruck are chosen so that the capillary on the membrane 2 acting mechanical load below a predefined limit, which, for example, to a change in the pore structure of the capillary 2 or damage them. A suction of the cleaning / conditioning fluid 6 takes place via for example, annularly arranged openings 17 (see 4 ).

Alternative to the device according to the invention 1 as they according to the 1 to 4 can also be a device 1' for cleaning and / or conditioning the capillary membranes 2 be used, as this example, according to the 5 and 6 shown. The device 1' according to the 5 and 6 is also of the capillary membrane to be cleaned or conditioned 2 pass straight and without deflection, in which case several nozzle devices 5 ' are arranged below each other. The individual nozzle devices 5 ' are in a container 18 arranged, in which also the cleaning / conditioning liquid 6 ' is filled. In this case, there is thus a cycle of the cleaning / conditioning fluid 6 ' not via alternately arranged first and second cells 3 . 4 but via a pump 13 containing the cleaning / conditioning fluid 6 ' from the container 18 sucks and the individual nozzle devices 5 ' feeds again. The nozzles 7 ' the nozzle device 5 ' are below the level of the cleaning / conditioning fluid 6 ' , Such a device 1 although requires a larger amount of cleaning / conditioning fluid 6 ' as the according to the 1 to 4 shown device 1 , but has advantages, especially with regard to threading the capillary membrane 2 when starting the device 1' In addition, the individual nozzle devices 5 ' could be used in a rinse already existing in conventional devices and thus there is only a small need for adaptation. It should be said that with respect to the nozzle device 5 and to the cleaning / conditioning fluid 6 Of course, what has been said and described in the previous paragraphs also applies to the nozzle device 5 ' or the cleaning / conditioning fluid 6 ' applies.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10102744 C5 [0002]
• DE 60218869 T2 [0003]

Claims (10)

Contraption ( 1 ) for cleaning and / or conditioning a capillary membrane ( 2 ), characterized by, - at least two series-connected, tubular cells ( 3 . 4 ), which depends on the capillary membrane to be cleaned / conditioned ( 2 ), wherein at least one first cell ( 3 ) a nozzle device ( 5 ), via which a pressurized cleaning / conditioning fluid ( 6 ) on the capillary membrane ( 2 ) is sprayable, - wherein at least one subsequently arranged second cell ( 4 ) a suction device ( 8th ), via which a negative pressure can be generated and that in the first cell ( 3 ) under pressure sprayed cleaning / conditioning liquid ( 6 ) is sucked, - wherein the at least two cells ( 3 . 4 ) are arranged so that they from the capillary membrane ( 2 ) can be traversed straight and without diversion. Apparatus according to claim 1, characterized in that at least a first and a second cell ( 3 . 4 ) at an axial end face a groove ( 14 ) and on an opposite end face a spring ( 15 ) over which the cells ( 3 . 4 ) are plugged into each other and connectable to each other. Apparatus according to claim 1 or 2, characterized in that the at least one first cell ( 3 ) and / or the at least one second cell ( 4 ) in cross-section annularly closed or c-shaped with an axial slot ( 16 ) are formed. Device according to one of claims 1 to 3, characterized in that at least two cell packets ( 9 . 10 ) first and second cells ( 3 . 4 ) are connected in series. Device according to one of claims 1 to 4, characterized in that the cleaning / conditioning liquid ( 6 ) Water and / or sodium hypochlorite (NACLO). Device according to one of claims 1 to 5, characterized in that - the nozzle device ( 5 ) is designed such that it the cleaning / conditioning liquid ( 6 ) radially against the capillary membrane ( 2 ), or - that the nozzle device ( 5 ) is designed such that it surrounds the capillary membrane ( 2 ) flowing vortex of the cleaning / conditioning liquid ( 6 ) generated. Device according to one of claims 1 to 6, characterized in that individual nozzles ( 7 ) of the nozzle device ( 5 ) obliquely to the axis of the first cell ( 3 ) and / or obliquely to the capillary membrane ( 2 ) are aligned. Method for cleaning and / or conditioning a capillary membrane ( 2 ), in which - at least two series-connected tubular cells ( 3 . 4 ) of the capillary membrane to be cleaned / conditioned ( 2 ) are passed in a straight line and without diversion, - at least a first cell ( 3 ) via a nozzle device ( 5 ) a pressurized cleaning / conditioning fluid ( 6 ) on the capillary membrane ( 2 ), - at least one subsequently arranged second cell ( 4 ) via a suction device ( 8th ) generates a negative pressure and that in the first cell ( 3 ) under pressure sprayed cleaning / conditioning liquid ( 6 ) sucks. Method according to claim 8, characterized in that in the at least one first cell ( 3 ) Water and / or sodium hypochlorite (NACLO) on the capillary membrane ( 2 ) is injected. Device according to claim 8 or 9, characterized in that - the nozzle device ( 5 ) the cleaning / conditioning fluid ( 6 ) radially against the capillary membrane ( 2 ), or - that the nozzle device ( 5 ) one around the capillary membrane ( 2 ) flowing vortex of the cleaning / conditioning liquid ( 6 ) generated.

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