DE10160429A1 - Filter used for filtering liquids comprises filter material and constructional element formed as support for electronic storage element - Google Patents

Abstract

A filter comprises a filter material (3) and a constructional element (1) formed as a support for an electronic storage element (4). Preferred Features: The electronic storage element is formed as a transponder and has a ring shape with an inner diameter larger than the outer diameter of the constructional element supporting the ring. The constructional element is an external safety device for preventing back-flooding of a cartridge filter. The constructional element is an adapter connected to an end cap (8) of a filter element.

Description

The invention relates to a filter with an electronic Storage element consisting of at least one Filter material and at least one construction element in which the Construction element carrier for at least one Storage element is.

When using filters are mostly for the user various product-specific information of importance. Relevant data of a product are in many cases included Communicated with the help of data sheets or certificates. Not The data communicated are rarely imprecise because they are often only communicate data of entire production batches, but not inform about the small section of the batch, the is used directly by the user or the customer. Data sheets are usually included with the product and not attached to the product so that they can be lost if necessary. In addition, the information provided is often only managed but is not where the information is needed or only available through detours. A possibility provide relevant data directly with the product TO deliver electronic storage elements, for example as electronic Labels can be used. electronic Storage elements can be in different ways on the Filter products are attached.

Filters with such electronic storage elements are for example in EP 0 700 313 B1, DE 201 04 481 U1, WO 00/40322, WO 00/32298 and described in WO 98/41306.

The disadvantage is that with these known filters electronic storage elements in thermal and / or physical and / or electrical contact with the filter material or the substance to be filtered or at least not optimal compared to the filter material and / or other external influences are shielded. In particular through Temperature changes of the filter material in one Filtration process and / or at a company, or Data exchange of the memory element with a readout or Storage device and in the manufacture of the filter and at this means that the filter is handled by the user the risk of damage to the filter and / or storage element take or at least mutually undesirable influence.

The object of the present invention is therefore a filter to propose with an electronic storage element, at a mutual adverse influence and / or Damage to filter and storage element due to physical damage Processes in their application as well as in handling is largely excluded.

This object is inventively in connection with the Preamble of claim 1 solved in that the electronic storage element spaced on the one carrying it Construction element is attached.

The fact that the storage element spaced on the load-bearing structural element is attached, can not damage of the storage element by thermal or other physical influences or forces arise on the filter. As well will damage the filter with thermal, or others physical influences on the storage element avoided.

In particular, filter candles come as filter elements, Filter capsules, filter cassettes, filter winding modules and Flat filter elements in question.

According to a preferred embodiment of the invention, this is Memory element designed as a transponder.

A transponder essentially consists of a microchip and a coil, which the receiving and transmitting antenna forms. Transponders are available in a variety of designs Available, for example as foils, cards or melted down in glass tubes. Transponders are preferably used as Read / write transponder trained. For certain applications, However, only passive transponders with which a Record is burned in during manufacture, which then unchangeable, which also means that it cannot be manipulated, be cheap. Transponders can be read contactless and, if necessary, writable, with no visual contact to the Read / write station or to the communication part is necessary. User-defined data can be easily stored on the microchip of the Transponders can be saved. Transponders are also through a password can be protected. Since their energy supply, i.e. H. your Activation, via a control with the Read / write station over a radio frequency field, they do not need own power supply. Therefore, they are particularly compact and inexpensive to manufacture and easy to manufacture Handling and durable in use. You are therefore as Storage elements particularly suitable for filters.

According to further described in subclaims 3 to 9, are preferred embodiments of the invention Storage elements described in ring shapes or a cuff shape, on appropriately trained construction elements can be arranged at a distance.

These attachment options are particularly cheap and diverse for the widespread cylindrical Filter elements, for example from Sartorius AG, Göttingen, usable.

According to further claims 10 to 13 described, preferred embodiments of the invention electronic storage element via at least one Spacers attached to the construction element. The Spacers can be used as an adhesive, for example as an adhesive or special adhesive plastic, protrusions or webs be trained.

These spacers make it particularly easy to effective and inexpensive spaced attachment of the Storage element possible.

According to further claims 14 to 20 described, preferred embodiments of the invention electronic storage element a protective sheath. The sheath can be made from one or more materials be constructed. Protection through is particularly effective Introduction of a fiber layer, for example made of fleece, Fabric, knitted fabric, a mesh or grid between which electronic storage element and the casing.

According to a further preferred embodiment of the Invention are on filters or on its construction element several electronic storage elements arranged as Transponders are trained. The transponder can can be controlled sequentially. For example, that has Advantage that the data in one of the transponders from the manufacturer can be invariably enrolled and others Transponder, for example, current validation data and Process data can be recorded, which in the course of the Use of the filters are changeable.

Further details of the invention emerge from the following detailed description and the attached Drawings in which preferred embodiments of the Invention are illustrated for example.

The drawings show:

Fig. 1 A section of a cartridge type filter (filter cartridge) having an outer transponder in a ring shape in a side view in section,

Fig. 1a the filter portion of Fig. 1 in a plan view,

Fig. 2 shows the portion of the cartridge type filter (filter cartridge) having an internal transponder in a ring shape in a side view in section,

Fig. 2a the filter portion of Fig. 2 in a top view,

Fig. 3 shows a winding module with a fluid-permeable core tube with a transponder in a side view in section,

Fig. 4 is a section of the filter cartridge with an adapter and with a transponder in a side view in section,

Fig. 5, the filter cartridge with an external pressure safety with a transponder in a side view in section,

Fig. 6, a disposable having a transponder in a side view in section,

Fig. 7 is a section of a microtiter plate with transponders in a perspective view;

Fig. 8 is a filter having a plurality of filter layers of material with a transponder in a side view in section,

Fig. 9 is a section of a filter in the form of a cartridge with a transponder in a side view in section,

Figure 10 is a section of a filter with a specially shaped MaxiCaps® Scalable -. Enclosure with a transponder in a side view in section,

FIG. 11 is a transponder as a sleeve on the MaxiCaps® Scalable - housing

Fig. 12 shows a section of the filter cartridge with backflow protection in detail with coated transponder with fiber layer in a side view in section and

Fig. 13 shows the section of the filter cartridge with backflow protection in detail with a covered transponder with spacer bars in a side view in section.

A filter essentially consists of a filter material 3 , 3 'and a construction element 1 , 2 , and has an electronic memory element 4 arranged at a distance from the construction element 1 , 2 carrying it.

Figs. 1 and 2 show sections of a cartridge-like filter element, a so-called candle filter, whose construction is described for example in DE 299 05 892 U1. The representations in FIGS. 1 and 2 show a side view in section, FIGS. 1a and 2a each show a top view. The filter candle has an outer backflow preventer 1 and an inner backflow preventer 2 , which is designed as a fluid-permeable core tube. The actual filter consisting of the filter material 3 is located between the backflow protection devices. In the embodiment shown in Fig. 1, or 1a, the electronic memory element 4 , advantageously designed as a transponder, is formed in a ring shape. The ring, in which the storage element or the transponder 4 is integrated, has an inner diameter that is larger than the outer diameter of the outer backflow preventer 1 , which results in a spaced attachment. The backflow preventer 1 forms the construction element that carries the transponder 4 . Fig. 2, or 2a, however, shows an annular inner transponder. This is received by an inner backflow preventer 2 , the diameter of which is larger than the outer diameter of the transponder ring 4 . The inner backflow preventer 2 , or the fluid-permeable core tube, here forms the receiving construction element and is advantageously designed as a support tube for the filter candle.

Fig. 3 shows in a side view in section of a spiral wound module with the fluid-permeable core tube 2 whose construction is described for example in DE 37 40 249 C2. The filter material 3 is designed as winding layers and is arranged between two end caps 8 . As in FIG. 2, the transponder 4 is designed as a ring, the outside diameter of which is smaller than the inside diameter of the core tube 2 receiving it. The transponder, or the ring 4, is fastened adjacent to the upper end cap 8 in the core tube 2 , and is thus spaced apart from the filter material 3 , which results in effective thermal and physical shielding.

Fig. 4 shows a side view in section of a filter candle with an adapter, the type of which is described for example in DE 34 07 956 C2. The adapter is an S-shaped material web connected to the end cap 8 and together with this forms a closure cap for the cartridge-shaped filter element. The adapter is the supporting structural element 1 for the transponder 4 . The transponder 4 is attached to the adapter spaced apart by a spacer 5 formed by webs.

In Fig. 5 is a side view in section of the filter cartridge. The transponder 4 is advantageously attached to the construction element 1 via a spacer 5 , as described in FIGS. 12 + 13.

Fig. 6 shows a pre-wired filter unit, a so-called disposable, whose type is described for example in US 4,900,441. The disposable is designed as a small filter with a one-piece plastic housing. The transponder 4 is integrated in a casing 6 , which is advantageously made of plastic, for example in a film, and is fastened to the housing, which represents the construction element 1 , via the spacer 5 , which is advantageously designed as an adhesive here.

A perspective view of a filter with a so-called microtiter plate is shown in sections in FIG. 7. Microtiter plates are sample carriers that have a large number of wells for holding liquid samples, as are used in particular in biotechnological and medical laboratories. It is often necessary to first filter the samples in a filtration process. This is possible by means of a filter with a special filter membrane, as described for example in DE 100 05 427 A1. The use of a transponder is particularly advantageous here for displaying cleaning intervals or filter changes. In the embodiment shown in FIG. 7, the transponder 4 is attached to a side part of the filter housing. The side part serves as the load-bearing structural element 1 . The attachment of the transponder 4 is implemented analogously to the attachment described in FIG. 6.

Fig. 8 shows a section through a filtration unit with a pleated filter element of a filter material 3 'and an upstream depth filter from the filter material 3, for example of entangled synthetic polymeric microfibers as a prefilter. The construction of such, particularly compact, filtration units is known, for example, from EP 0 925 104 B1. On the housing, or construction element 1 , two transponders 4 , each in the casing 6 , z. B. of film, and spaced with a spacer 5 , for example an adhesive.

The filtration unit can also have one or more membrane adsorber layers (not shown), for example according to the basic design of the known Minisart® filters from Sartorius AG, Göttingen. For example, a protein-containing sample can be filtered, a target protein being isolated on an adsorber membrane. The target protein can be stored particularly well in connection with the adsorber in the closed filter unit and can be transported safely (as a so-called storage device), and can be eluted from the adsorber again if necessary. With the transponder 4 there is also a high level of documentation security and simplification.

FIG. 9 shows a section of a filter cassette, the type of which is described, for example, in DE 196 43 851 A1. Such cassettes are used in particular for static or dynamic filtration or material separation in the laboratory and industrial area. Such cassettes consist of a multiplicity of layered flat blanks which are bordered in a fluid-tight manner in their edge regions by a permanently elastic sealing compound. The sealing compound forms the structural element 1 which carries the transponder 4 . The transponder 4 is surrounded by the casing 6 , advantageously an elastomer. Fiber layers 7 are introduced between the casing 6 and the transponder 4 .

Fig. 10 shows sections of a filter having a special housing without separate backflow safety extend in which, on the inside of the flow channels as a MaxiCaps® Scalable - housing the company Sartorius AG, Göttingen, and for example, is known from EP 0907397 B1. The transponder 4 is attached to the outer housing structure, adapted to the course of the structure, via the casing 6 , advantageously made of glass, with the spacer 5 , advantageously an adhesive.

In Fig. 11, the transponder 4 is integrated in a collar 9, which the MaxiCaps® Scalable - enclosing casing which forms the supporting construction element 1.

Fig. 12 shows schematically a detail of the filter candle, in which the transponder 4 is integrated in the sheath 6, wherein the fiber layers are incorporated 7 between the sheath 6, for example made of plastic, and the transponder 4. The load-bearing construction element 1 is formed by the external backflow protection. The casing 6 is connected to the construction element 1 with (plastic) welded seams 11.

In Fig. 13, finally, is the detail of FIGS. 12, wherein it is provided in the form of bars, instead of the fiber layers 7, the spacer 5.

Claims (22)

1. Filter with an electronic storage element, consisting of at least one filter material and at least one construction element, in which the construction element is a carrier for at least one storage element , characterized in that the electronic storage element ( 4 ) is spaced apart on the construction element ( 1 , 2 ) is attached. 2. Filter according to claim 1, characterized in that the electronic storage element ( 4 ) is designed as a transponder. 3. Filter according to claim 1 or 2, characterized in that the electronic storage element ( 4 ) has a ring shape, the inner diameter of which is larger than the outer diameter of the structural element ( 1 ) carrying the ring. 4. Filter according to claim 3, characterized in that the construction element ( 1 ) is an outer backflow preventer of a cartridge-like filter. 5. Filter according to claim 3, characterized in that the construction element ( 1 , 2 ) is an adapter connected to an end cap ( 8 ) of a cartridge-shaped filter element. 6. Filter according to claim 3, characterized in that the construction element ( 1 , 2 ) is a section of a cylindrical filter housing. 7. Filter according to claim 1 or 2, characterized in that the electronic memory element ( 4 ) has a ring shape, the outer diameter of which is smaller than the inner diameter of the structural element receiving the ring ( 2 ). 8. Filter according to claim 7, characterized in that the construction element ( 2 ) is an inner support tube of a cartridge-like filter. 9. Filter according to claim 1 or 2, characterized in that the electronic storage element ( 4 ) is integrated in a sleeve ( 9 ) which encloses the load-bearing structural element ( 1 ). 10. Filter according to claim 1 or 2, characterized in that the electronic storage element ( 4 ) via at least one spacer ( 5 ) is attached to the construction element ( 1 , 2 ). 11. Filter according to claim 10, characterized in that the spacer ( 5 ) is designed as an adhesive. 12. Filter according to claim 10, characterized in that the spacer ( 5 ) is designed as at least one projection. 13. Filter according to claim 10, characterized in that the spacer ( 5 ) is designed as at least one web. 14. Filter according to any one of claims 1 to 13, characterized in that the electronic storage element (4) it carries protective sheath (6). 15. Filter according to claim 13, characterized in that the casing ( 6 ) consists of at least one material. 16. Filter according to claim 14, characterized in that the Material is an elastomer. 17. Filter according to claim 14, characterized in that the Material is a plastic. 18. Filter according to claim 14, characterized in that the Material is a glass. 19. Filter according to one of claims 14 to 18, characterized in that at least one fiber layer ( 7 ) is introduced between the electronic storage element ( 4 ) and the sheathing ( 6 ). 20. Filter according to claim 19, characterized in that the fiber layer ( 7 ) is selected from the group of nonwovens, woven fabrics, knitted fabrics, nets or grids or combinations thereof. 21. Filter according to one of claims 1 to 20, characterized characterized in that at least two electronic storage elements are arranged on the construction element. 22. Filter according to one of claims 1 to 21, characterized characterized that several trained as transponders electronic memory elements can be controlled sequentially on the Construction element are arranged.