DE102021003089A1 - ion exchanger - Google Patents

Abstract

The invention relates to an ion exchanger for a coolant system of a fuel cell, comprising a housing having a first separately manufactured housing component with an opening, which serves as an inlet for the fluid to be treated into the ion exchanger, a second separately manufactured housing component with an opening, which serves as an outlet for the treated fluid from the ion exchanger, and at least one first further separately produced housing component, which is arranged between the first and the second housing component, the further housing component being covered at its opposite open areas with a separating layer, in particular a fine-meshed fabric, in order to to store ion exchange material in it. This makes it possible for the first time to provide a modular ion exchange system with few components, which can be easily applied to the respective applications.

Description

The present invention relates to an ion exchanger for a coolant system of a fuel cell according to the preamble of claim 1.

the DE 10 2012 020 128 A1 discloses an ion exchanger for treating a cooling fluid of a cooling device of a functional system, having a container consisting of two housing components, which are welded to one another for proper operation.

The disadvantage of this type of construction of an ion exchange container is that the amount of ion exchange medium cannot be variably adapted to the different requirements of different systems, and instead a new housing with a larger volume has to be produced to accommodate the ion exchange medium.

The present invention is therefore concerned with the problem of specifying an improved or at least an alternative embodiment for an ion exchanger for a coolant system of a fuel cell of the generic type, in particular to provide a housing of an ion exchanger, which consists of modular components in order to increase the volume for accommodating the ion exchange medium for the respective applications technically easy and inexpensive to make variable.

According to the invention, this problem is solved by the subject matter of independent claim 1 . Advantageous embodiments are the subject matter of the dependent claims.

The present invention is based on the general idea of providing an ion exchanger for a coolant system of a fuel cell, which has a housing which consists in particular of a plastic, in particular of polyamide, and has at least three housing components. The housing includes a first housing component having a first opening. In a preferred embodiment, the first opening is configured as a stub to serve as an inlet for fluid to be treated. In a preferred embodiment, the first housing component consists of a plastic, in particular polyamide, or a metal, in particular aluminum. Furthermore, the housing has a second housing component which includes a second opening. In a preferred embodiment, the second housing component consists of a plastic, in particular polyamide, or a metal, in particular aluminum. Furthermore, in a preferred embodiment, the second opening is designed as a nozzle in order to discharge the treated fluid from the ion exchanger. The housing also has at least one first further housing component, which has a wall in the form of a piece of pipe. The first further housing component preferably consists of a plastic, in particular polyamide, or a metal, in particular aluminum. At the two opposite openings, the housing component comprises a partition wall which is fluid-permeable and retains the ion exchange material between the two partition walls. In a preferred embodiment, the partition is provided as a fine mesh fabric or membrane. The partition wall is preferably detachably or non-detachably coupled to the housing component, in particular firmly welded, clipped, screwed or glued to the housing component. If the dividing wall is detachably coupled to the housing component, the dividing wall can be easily dismantled in the event of maintenance in order to exchange the ion exchange material. In a particularly preferred embodiment, the ion exchange material is an anion exchange resin or a cation exchange resin. The first further housing component has a first coupling area. In a preferred embodiment, the coupling area is provided as a thread. In an alternative embodiment, the coupling area can also be provided as a bayonet or as a clip connection. The coupling area serves to couple the first additional housing component to the second housing component, which in particular has the counterpart of the thread. The first additional housing component also has a second coupling area on the opposite side in the area of the partition wall in order to couple the first additional housing component to the first housing component. In a preferred embodiment, the coupling area is designed as a thread. In a particularly preferred variant, an additional seal is provided in the coupling area in order to connect the individual housing sections to one another in a fluid-tight manner.

By producing the housing with at least three separate individual housing components, it is possible for the first time to provide the ion exchange material in a modularly manufactured housing component in order to be able to easily adapt it to other applications and to simply separate the first additional housing component from the rest of the housing for regeneration of the ion exchange material to be removed and then easily paired again. In a preferred embodiment, the ion exchanger according to the invention has, in addition to the three housing components, a second further housing component which is arranged between the first housing component and the first further housing component. In a preferred embodiment the second further housing component made of a plastic, in particular of polyamide or a metal, in particular of aluminium. The second further housing component has a wall in the form of a piece of pipe with two opposite openings. The openings are closed with a dividing wall, in particular a fine-mesh fabric or a membrane, in such a way that a fluid to be treated flows through the dividing wall, but that ion exchange material arranged between the dividing walls is held back. The partition wall is preferably detachably or non-detachably coupled to the housing component, in particular welded, clipped, screwed or glued to the housing component. If the dividing wall is detachably coupled to the housing component, the dividing wall can be easily dismantled in the event of maintenance in order to replace the ion exchange material. The second additional housing component has a coupling point to the first additional housing component and the first housing component. In a preferred embodiment, the coupling point is provided as a thread. In an alternative embodiment, the coupling point is provided as a bayonet or clip connection. In a particularly preferred embodiment, an additional seal is provided in the area of the coupling point in order to be able to couple the second further housing component module to the further housing components in a fluid-tight manner.

This makes it possible for the first time to provide the ion exchange material for an ion exchanger as a single type, i.e. as an anion exchange resin or cation exchange resin, and in particular to adapt it to various applications in a simple manner, with an anion exchange resin or a katoin exchange resin in the first further housing component and anion exchange resin in the second further housing component or a cation exchange resin is arranged.

Further important features and advantages of the invention result from the dependent claims, from the drawings and from the associated description of the figures with reference to the drawings.

It goes without saying that the features mentioned above and those still to be explained below can be used not only in the combination specified in each case, but also in other combinations or on their own, without departing from the scope of the present invention.

Preferred exemplary embodiments of the invention are illustrated in the drawings and are explained in more detail in the following description, with the same reference numbers referring to identical or similar or functionally identical components.

• 1 eine schematische Ansicht eines erfindungsgemäßen lonentauschers
• 2 eine schematische Ansicht einer bevorzugten Ausgestaltung des erfindungsgemäßen lonentauschers

It shows, each schematically

• 1 a schematic view of an ion exchanger according to the invention
• 2 a schematic view of a preferred embodiment of the ion exchanger according to the invention

According to the 1 the ion exchanger 1 according to the invention has a housing 2, which consists in particular of a plastic, in particular of polyamide, which consists of at least three housing components. The housing 2 has a first housing component 6 which has an opening 7 . In a preferred embodiment, the opening 7 is designed as a socket 8 in order to function as an inlet for the fluid to be treated. Furthermore, the housing has a second housing component 3 which includes an opening 4 . In a preferred embodiment, the opening 4 is designed as a socket 5 in order to discharge the treated fluid from the ion exchanger 1. The housing also has at least one first further housing component 11, which has a wall in the form of a piece of pipe. At the two opposite openings, the housing component 11 comprises a partition wall 13 which is fluid-permeable and holds back the ion exchange material 12 between the two partition walls 13 . In a preferred embodiment, the partition wall 13 is provided as a fine-meshed fabric. A fine-mesh fabric is understood to mean a fabric which consists of a plastic fabric, in particular polyamide, and has a mesh size which is designed in such a way that the ion exchange material is retained while the fluid to be filtered passes through. In a particularly preferred embodiment, the ion exchange material 12 is an anion exchange resin or a cation exchange resin. The first further housing component 11 has a first coupling area 10 in the form of a thread 9 in order to couple the first further housing component 11 to the second housing component 3, which has the counterpart of the thread. The first additional housing component 11 also has a second coupling area 9 on the opposite side in the area of the partition wall 13 in the form of a thread in order to couple the first additional housing component 11 to the first housing component 6 . In a particularly preferred variant, an additional seal is provided in the coupling area 9, 10.

This makes it possible for the first time to provide the ion exchange material 12 in a modular housing component 11 in order to be able to easily adapt it to other applications and to simply remove the housing component 11 from the rest of the housing 2 for regeneration of the ion exchange material 12 .

According to the 2 has the ion exchanger 1 according to the invention as in 1 a housing 2 having a first housing component 6, a second housing component 3 and a first additional housing component 11. In addition, points 2 a second further housing component 14 which is arranged between the first housing component 6 and the first further housing component 11 . The second further housing component 14 has a wall in the form of a piece of pipe with two opposite openings. The openings are each closed with a dividing wall 17, in particular a fine-meshed fabric, in such a way that a fluid to be treated flows through the dividing wall 17, but that ion exchange material arranged between the dividing walls 17 is held back. The second additional housing component 14 has a thread 15, 16 in the region of the coupling points 15, 16 to the first additional housing component 11 and the first housing component 6, in particular a thread 15, 16 with an additional seal, to easily and securely seal the second additional housing component module 14 and to be able to quickly couple to the other housing components 6, 11. The use of at least two additional housing components 11, 14 makes it possible for the first time for an ion exchanger 1 to provide the ion exchange material 12 of a single type, with an anion exchange resin 12 being arranged in the first additional housing component 11 and a cation exchange resin 18 being arranged in the second additional housing component 14.

Reference List

1.

ion exchanger

2.

Housing

3.

Second housing component

4.

Opening of the second housing component

5.

Socket of the second housing component

6.

First housing component

7.

Opening of the first housing component

8th.

Socket of the first housing component

9.

Coupling point, in particular thread, of the first further housing component

10

Coupling point, in particular thread, of the first additional housing component

11.

First additional housing component

12.

ion exchange material

13.

Separating layer of the first further housing component

14

Second additional housing component

15

Coupling point, in particular thread, of the second further housing component

16

Coupling point, in particular thread, of the second further housing component

17

Separating layer of the second further housing component

18

ion exchange material

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was 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.

Patent Literature Cited

• DE 102012020128 A1 [0002]

Claims (15)

Ion exchanger (1) for a coolant system of a fuel cell comprising having a housing (2). a first separately manufactured housing component (6) with a first opening (7) which serves as an inlet for the fluid to be treated into the ion exchanger (1), a second separately manufactured housing component (3) with a second opening (4) which serves as an outlet for the treated fluid from the ion exchanger (1), and at least one first further separately manufactured housing component (11,14), which is arranged between the first and the second housing component (3,6), wherein the at least one further housing component (11,14) is each provided with a separating layer ( 13), in particular a fine-meshed fabric, is closed in such a way that the fluid to be treated flows through the housing component (11) and the ion exchange material (12) arranged therein is retained. ion exchanger (1) according to claim 1 , wherein the two separating layers (13) are detachably coupled to the first further housing component (11), in particular screwed to the first further housing component (11). ion exchanger (1) according to claim 1 or 2 , wherein the first and the second housing component (3) have a receptacle for the at least one further housing component (11,14), which is designed such that the further housing component (11,14) is accommodated in the first housing component (6), in particular screwed, and then added to the second housing component (3), in particular screwed, is. Ion exchanger (1) according to one of the preceding claims, wherein the opening (7) of the first housing component (6) and/or the opening (4) of the second housing component (3) is designed as a socket (5, 8). Ion exchanger (1) according to one of the preceding claims, wherein a second further housing component (14) is arranged between the first housing component (6) and the second housing component (3) next to the first further housing component (11). ion exchanger (1) according to Claims 5 , wherein the second further housing component (14) is arranged between the first housing component (6) and the first further housing component (11), in particular screwed to them. Ion exchanger (1) according to one of Claims 5 - 6 , wherein the second further housing component (14) is closed at its opposite open areas in each case with a further separating layer (17), in particular a fine-mesh fabric, in such a way that the fluid to be treated flows through the housing component (14) and the ion exchange material ( 18) is held back. ion exchanger (1) according to claim 7 , wherein the two further separating layers (17) of the second further housing component (14) are detachably coupled to the second further housing component (14), in particular screwed to the second further housing component (14). Ion exchanger (1) according to one of the preceding claims, wherein a separate seal is arranged at the coupling points (9,10,15,16) of the individual housing components (3,6,11,14). Ion exchanger (1) according to one of the preceding claims, wherein the individual housing components (3,6,11,14) consist of a plastic, in particular of polyamide. Ion exchanger (1) according to one of the preceding claims, wherein the ion exchange material (12,18) arranged in the further housing components (11,14) is either an anion exchange resin or a cation exchange resin. Ion exchanger (1) after claim 8 , An anion exchange resin being arranged in the first further housing component (11) and a cation exchange resin being arranged in the second further housing component (14). Housing component (11,14) of an ion exchanger (1) according to one of the preceding claims, wherein the housing component (11,14) is closed with the separating layer (13,17), in particular a fine-meshed fabric, in such a way that the fluid to be treated flows through the Housing component (11,14) flows and the ion exchange material (12,18) arranged therein is retained. Housing component (11,14) after claim 11 , wherein the housing component (11,14) has at least one coupling point (9,10,15,16), in particular a thread, the coupling point (9,10,15,16) being designed in such a way that the housing component (11,14 ) is coupled to a further housing component (3,6,11,14). Housing component (11,14) after claim 12 , Wherein the housing component (11,14) in the area of Coupling point (9,10,15,16) a seal is provided.

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