WO2004059095A1 - Abflusssieb verfahren zum hestellen eines abflussiebesund verwendung eines solchen abflusssiebes sowie verwendung eines permeablen gebildes - Google Patents
Abflusssieb verfahren zum hestellen eines abflussiebesund verwendung eines solchen abflusssiebes sowie verwendung eines permeablen gebildes Download PDFInfo
- Publication number
- WO2004059095A1 WO2004059095A1 PCT/DE2003/004163 DE0304163W WO2004059095A1 WO 2004059095 A1 WO2004059095 A1 WO 2004059095A1 DE 0304163 W DE0304163 W DE 0304163W WO 2004059095 A1 WO2004059095 A1 WO 2004059095A1
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- WIPO (PCT)
- Prior art keywords
- drain
- film
- strainer
- drain strainer
- area
- Prior art date
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E03—WATER SUPPLY; SEWERAGE
- E03C—DOMESTIC PLUMBING INSTALLATIONS FOR FRESH WATER OR WASTE WATER; SINKS
- E03C1/00—Domestic plumbing installations for fresh water or waste water; Sinks
- E03C1/12—Plumbing installations for waste water; Basins or fountains connected thereto; Sinks
- E03C1/26—Object-catching inserts or similar devices for waste pipes or outlets
- E03C1/264—Separate sieves or similar object-catching inserts
Definitions
- Drain strainer method for producing a drain strainer and use of such a drain strainer and use of a permeable structure
- the invention relates, on the one hand, to a drain screen for attachment to a drain opening and, on the other hand, to a method for producing a drain screen.
- the invention relates to the use of such a drain screen and the use of a permeable structure.
- drain filters for example made of plastic, are known from the prior art which are attached to a drain. Waste water is filtered by means of these drainage screens before they reach the drain and a sewer system connected to it. Filtering generally prevents coarser contaminants from reaching the drain and contaminating it or the sewer system connected to the drain, or in the worst case even clogging it.
- drains from showers, bathtubs or wash basins quickly become clogged with hair or other solid matter and must therefore be cleaned regularly.
- regular cleaning is deliberately not carried out, since this cleaning is annoying and unpleasant for many people.
- cleaning is often simply forgotten until the drain threatens to become blocked and the waste water from a container can no longer drain to a sufficient extent. Only then is the drain, which is almost clogged with dirt, laboriously cleaned.
- the known drain strainers prevent the drains from sanitary facilities from becoming dirty and possibly becoming clogged, but this does not change the fact that the drain strainers also have to be cleaned from time to time. While this is easier than cleaning a fixed drain, it is still work-related. In addition, as previously mentioned, cleaning a drain or drain strainer is uncomfortable for most users. This is all the more true if cleaning is only carried out rarely and the drain filter is heavily soiled.
- the object of the invention is achieved by a drain screen for attachment to a drain opening, the drain screen having a film or a film-like structure.
- the drain screen made of a film or a film-like structure provides a drain screen which is particularly thin and therefore extremely unobtrusive.
- the present drain filter can be manufactured so cheaply that it can be manufactured economically as a disposable product.
- a drain strainer no longer has to be cleaned, but can be disposed of after use via conventional waste disposal. If the present drain filter is contaminated or even blocked by filtered substances, it is removed from the area of the drain and disposed of, for example, via the dual system. The foil removed in this way is then simply replaced by a new foil. In this way, a user of a drain strainer is spared cleaning work in this regard, so that the user does not come into contact with bacteria or other germ cells of the dirty drain strainer for an unnecessarily long time.
- Permeable films are already known, but for the first time a drainage screen is made from a permeable film in the course of industrial production. Due to the possibility of industrial manufacture of a drainage screen from a permeable film, the drainage screen can advantageously be manufactured as a mass product and accordingly be offered cheaply as a single-use product.
- film or “film-like structure” also means film-like materials that make it possible to create a drain strainer or a filter area with which solids can preferably be filtered from a liquid.
- the film-like structure is preferably made from a plastic film.
- the drain filter is particularly inexpensive to manufacture and moreover very robust.
- metal or paper are also suitable for designing the film-like structure as a drain strainer.
- the film-like structure can also be formed, for example, from a fabric, from a felt or some other permeable material.
- the terms “film-like structure” and “film” are used essentially synonymously. It is essential that the present film is permeable to a liquid.
- the film described here can also be designed as a type of disk that is simply inserted into a recess in a drain.
- the film can have an essentially cylindrical body which is sufficiently permeable to a liquid. After the body becomes dirty, it is replaced by a new body.
- the drain strainer advantageously does not require any additional support devices in order to function permanently. The drain strainer is so strong that it is only provided by a film or a film-like structure.
- the film is advantageously made of a transparent material. It goes without saying that a transparent material is not absolutely necessary.
- the film can also be colored, whereby the film forming the drain strainer presents itself to a user as a particularly striking, new and smart product. If necessary, the drain strainer can also serve as an advertising medium.
- the drain strainer according to the invention is not only advantageously used in private households but can also be used advantageously in almost all commercial areas.
- the drain strainer film can be used advantageously in laboratories, since the film, which can be produced inexpensively, can be disposed of immediately after contamination, without having to be laboriously cleaned.
- An embodiment variant provides that the film or the film-like structure is self-adhesive. This prevents the drain strainer from slipping particularly well, since the drain strainer is detachable, but for the first time can be firmly arranged at a drain.
- the drain strainer is essentially flat.
- the drain strainer can be arranged in a space-saving manner on a drain.
- the drain strainer can be cleaned in a particularly simple manner, since it essentially forms a flat surface. In this way, the replacement of, in particular, a slightly soiled drain strainer by a new drain strainer can advantageously be delayed. It also essentially gets dirt on one plan surface visible more quickly and therefore removed early. Due to the fact that the present drain strainer is particularly easy to clean due to its flat shape, depending on the embodiment variant, it is advantageously also suitable for being permanently arranged at a drain. Thus, the present drain filter can optionally be cleaned particularly easily several times in the assembled state or in the state attached to a drain opening.
- flat is understood to mean a drainage screen which extends essentially only two-dimensionally, for example in the form of a flat disk.
- sheer material thickness of the film or the film-like structure is not regarded as a third dimension, in which the film extends, since the material thickness does not represent a main extension of the drain strainer.
- the drainage screen advantageously has at least two layers.
- a first layer is intended to retain dirt particles.
- a second layer makes it possible to stick the film to a drain.
- the drainage screen has a filter layer on which an adhesive layer is arranged, a carrier layer being detachably arranged on the adhesive layer.
- a carrier layer is additionally detachably arranged on the adhesive layer. If necessary, such a carrier layer can also be dispensed with if the adhesive layer is selected in such a way that it only develops its essential adhesive effect when it comes into contact with a liquid. In any case, the carrier layer is removed before the film is attached, so that the drain sieve is connected to the drain directly via the adhesive layer.
- the filter layer represents that area of the drain strainer on which the filtered-out substances accumulate.
- the film has an outer diameter of more than 10 mm, preferably more than 30 mm.
- the Foil has an outer diameter of less than 300 mm, preferably less than 100 mm. This avoids an unnecessarily high consumption of material for providing a foil-like drainage screen.
- the film can also have an outer diameter which is different from the above-mentioned information.
- the drain strainer has a holding area with which the film can be arranged at the drain.
- the film with the holding area is preferably arranged at an edge of an opening of the outlet of a container.
- the “holding area” is generally considered to be that area of the film which, in the case of a film properly attached to a drain, is preferably in contact with the edge of the opening of the drain in such a way that a liquid is not filtered in the contact area.
- the holding area can already be present on the drain strainer in an unapplied state.
- the drain strainer is made from a film which, in addition to a filter area, has a further area which is not permeable to a liquid. This impermeable further area of the film or the drain strainer is intended to be glued to a surface.
- a drain strainer made of a continuously permeable film is structurally simpler and thus also easier to manufacture.
- only a part of the permeable film is no longer permeable to a liquid after the film has been applied to a surface. Since with the latter variant, a drain strainer can be produced from a film much more economically, a drain strainer can hereby be manufactured correspondingly more cost-effectively.
- the boundary between the filter area and the holding area is preferably fluid and essentially also depends on the respective area of application.
- the film is simply attached to the edge of the opening of the drain via the closure.
- the closure can also be operated when the drain strainer is attached and, moreover, the waste water is filtered with a drain strainer before the waste water reaches the further waste water system.
- the drain with an integrated closure has a mostly ring-shaped drainage area, it is particularly advantageous in this case if the film has material recesses, which are usually also ring-shaped in such a way that, when the film is properly applied, they are preferably directly above the annular drain area are arranged.
- the filter area has a depression.
- a sink generally causes solids that are held back by the film to collect in the sink and therefore no longer get back into the sanitary area as easily.
- a large part of the entire drain strainer film is arranged in the drain, so that a drain strainer that is barely perceptible is provided.
- the term “sink” describes a more or less strongly formed bulge of the film, which essentially comprises the filter area of the film or the drain strainer. In the case of a film that is properly attached to a drain, the sink essentially extends into the drain Such a sink can already be provided on the film during the production of the drain strainer, so that the drain strainer already has such a sink in its original state, which means after the production and before the use of the film as a drain strainer realize such a depression, however, if the material properties of the foil are selected such that the depression gradually forms only when the drain strainer is used, for example, a depression is formed in areas of the foil due to the pressure that a liquid exerts on the foil which the drain strainer is not directly with a surface e of a drain or a container wall is in contact. The film yields to this pressure within certain limits, so that a depression can form at the point described above. The degree of yielding can optionally also be influenced by the temperature of the liquid, so that this film property can be taken into
- the holding area forms a collar of the film or is a collar of the depression.
- the collar of the film forms a particularly good visual limitation of the drain strainer if the collar has no material recesses or the like. If the drain strainer comprises a depression, the collar preferably merges directly into the depression and vice versa. The drain strainer is thus particularly simple in terms of construction.
- the collar preferably forms the essential holding area of the film.
- the film or the collar of the film has an outer diameter of less than 300 mm, preferably less than 100 mm.
- the collar of the film has an inner diameter of more than 20 mm, preferably more than 30 mm.
- the outer diameter and the inner diameter can assume different dimensions in other applications.
- an embodiment variant provides that the collar of the film is annular.
- a ring-shaped collar adapts particularly well to commercially available drains, since these commercial drains almost all have a round shape.
- the film and thus also the collar can also have a shape deviating from the circular shape.
- the film or its collar can also have an oval or rectangular shape.
- the collar has an adhesive on the side facing the depression.
- This adhesive preferably has an adhesive so that the film can be attached in a particularly secure manner in front of or at the opening of the drain.
- the drain strainer In order to prevent, from a hygienic point of view, that the drain strainer remains disproportionately long on the drain and mold may form, it is possible to select the adhesive so that it loses its adhesive properties after some time. As a result, the drain strainer automatically detaches from the drain over time. For example, the adhesive loses its adhesive properties after a week in such a way that the film detaches itself from the drain and can therefore be replaced particularly easily by a new film.
- the drain strainer or the foil is provided with an indicator which indicates when a change of the drain strainer or the foil is due.
- an indicator can optionally also be realized by changing the color of the drain screen or the film, the drain screen or the film changing its color if, for example, a critical number of bacteria is present on the film.
- an adhesive material which, for example, adheres particularly well when it is wetted by a liquid.
- the risk of the film slipping is almost eliminated if the film, as already explained above, is glued on using an adhesive.
- the areas around the drain are preferably cleaned and dried before the film is stuck on, so that the active connection between the film and the drain is particularly good.
- the adhesive on the side of the film facing the drain in particular in the region of the collar or one Edge area of the film is arranged. If the consumption of adhesive may only play a secondary role, it is advantageous if the adhesive side with which the drain strainer is to be glued to a surface consists entirely of a film side coated with adhesive. In this variant, the film is particularly easy to manufacture.
- the drain screen film preferably has no sink if a drain has an integrated closure on which the sink would rest and there is therefore a risk that the function of the sink or the filter area is adversely affected.
- the film or the collar of the film has a flap which is preferably free of adhesive.
- the drain strainer is particularly easy to attach to a drain if the collar is reinforced against the rest of the film. Such a reinforcement increases the stability of the collar, so that it retains its shape more reliably before it is attached, and as a result the film as a whole can be attached to the drain more easily.
- the collar has an elevation in the area of its inner diameter compared to the area on the outer diameter of the collar.
- the filter area in the region of the depression be cylindrical or conical.
- the lateral surface of a depression fits particularly well into a drain, since the drains almost always have an essentially cylindrical inner area.
- the film can be introduced particularly advantageously in a cylindrical drain.
- a conical filter area has the advantage that the outer surface of the filter area can also be made permeable. This is particularly useful if the conical surface is not in direct contact with a cylindrical drain. This means that a liquid can also be filtered through the permeable surface of the filter area or the sink.
- the filter effectiveness of the film or the drain strainer can be further increased if the filter area, in particular the bottom of the filter area, is double-walled.
- the filter area in particular the bottom of the filter area
- individual floors which are spaced apart from one another have material recesses which are arranged, for example, offset from one another, so that the material recesses of the floors which are spaced apart from one another do not lie directly opposite one another. Due to the advantages achieved in this way, the feature of double Wall filter area inventive without the other features of the invention.
- a preferred embodiment variant provides that the drain screen film or a film-like structure in this regard or the filter area of the film has round, oval and / or rectangular material recesses.
- the size of the material recesses can correspond to the size of the culverts of a standard drain.
- the material recesses of the film can be chosen smaller than the passages of the drains. The number of material recesses is preferably increased accordingly so that almost the same volume of liquid can be filtered even with smaller material recesses.
- material recesses means any openings on the present drainage screen which give the drainage screen or a film or a film-like structure a certain permeability, at least with regard to a liquid, so that with a drain screen realized by means of the film or a film-like structure, in particular solids can be filtered out of a liquid.
- a permeability of the drain strainer can be achieved not only through material exceptions, but with simple slots. It is therefore advantageous if the drainage screen film or a film-like structure in this regard has slots. The film cuts through the slits in sections, so that openings are thereby realized which make the drainage screen made with the film permeable.
- the slits can be introduced into the film in a variety of shapes and lengths.
- the slots are elongated or have a radius so that the slots are curved.
- individual slots can also intersect with one another.
- the curved slits form a type of tongue which moves out of the main plane of the film when pressure is applied, for example by a sewage flowing past. Moving in this way allows the openings of the film or the drain strainer to be enlarged or reduced.
- the drain strainer is almost closed when no liquid is filtered with the drain strainer, it is advantageous if the drain strainer film has variable openings. In this way, an odor formed in the drain can ideally be limited to the drain area behind the film.
- variable openings can be realized particularly easily through the slots made in the film.
- two intersecting slots form four noses or tongues.
- these noses or tongues do not form any significant opening.
- the lugs or tongues lower in the direction of flow the liquid, so that there is an enlarged opening compared to the original state.
- the degree to which the lugs or tongues yield to the pressure acting on them is influenced in particular both by the length of the slots and by the material properties of the film and can accordingly be set via these parameters.
- the noses or tongues spring back again after the liquid has flowed through, so that they almost close the openings again.
- the size or the diameter of the openings can vary depending on the filter intensity.
- the openings have a diameter of less than 10 mm or less than 8 mm, preferably less than 5 mm
- the openings are larger than 1 mm, preferably larger than 3 mm.
- the film or the drain strainer has slots, it is also advantageous if the slots have a length of more than 1 mm, preferably more than 3 mm.
- the slots have a length of less than 20 mm, preferably less than 10 mm.
- the opening diameter and the slot length can deviate from the information previously given.
- a good filter result is achieved if the film has more than 0.1 openings per cm 2 , preferably more than 0.5 openings per cm 2 .
- the depression of the filter area has a depth of more than 1 mm, preferably more than 5 mm. Since most drains do not have an integrated closure, but are closed by means of a separate cover if necessary, such a deep sink is particularly advantageous.
- the drain filter can adapt to changing conditions, particularly when the closure is inserted, it is advantageous if the film is elastic.
- the drain strainer is flexible, at least to a certain extent, and does not tear immediately when subjected to a somewhat greater load.
- a drainage screen made of a film is sufficiently high Has robustness if the film has a material thickness of more than 0.001 mm, preferably more than 0.01 mm.
- the film has a material thickness of less than 2 mm, preferably less than 0.5 mm.
- the drain strainer is preferably used as a disposable product, it is advantageous if the film is made from a biodegradable or recyclable material. As a result, the film can also be disposed of in a composting heap, for example.
- the film has a solid structure, for example made of plastic or metal.
- the drain strainer film is given a more stable shape before application than without a framework, so that the film can be brought to a drain more easily.
- the film has an adhesive surface.
- This adhesive surface is preferably provided on the side of the film facing the liquid to be filtered. This means that the film does not only have a collar with an adhesive so that it can be glued particularly well to a drain.
- the film is additionally provided with an adhesive surface, at least in some areas.
- it is intended to leave the drain screen at a drain opening for a longer period of time and not to clean it early when it is first soiled it has been shown in tests that it is advantageous if the surface of the drain screen is relatively different from an adhesive surface has a smooth surface. It has been found that the drain strainer has sufficiently good filter properties despite a smooth surface and can be cleaned particularly well from filtered substances. It goes without saying that the feature of a relatively smooth surface in a drain strainer is advantageous even without the other features of the invention.
- the film In order to meet the high hygiene standard that is prevalent almost everywhere, it is advantageous if the film also has an antibacterial surface. In this way, even with a film that is used over a longer period of time, it is ensured that unsanitary conditions in the region of the drain are avoided as long as possible, at least on the film.
- An antibacterial surface of a drain strainer is inventive even without the other features of the film, since it achieves significant advantages in the area of hygiene.
- the film and an adhesive are heat-resistant to a temperature of more than 20 ° C., preferably more than 30 ° C. So is ensures that the film maintains its shape even with warmer liquids and also stays in place even when it comes into contact with a hot liquid.
- the drain strainer in particular with its filter area, does not close the openings of a drain and thereby prevent the liquid from draining out of the container, it is advantageous if, in the case of a film properly applied to a drain, there is an empty space between a filter area and a drain bottom of the drain is available. Since in most drains the drain openings are arranged in the bottom of the drain, the risk of such an empty space is reduced that the film rests on the openings of a drain and closes them in the process.
- the drain strainer With the present drain strainer, a disposable drain strainer is provided for the first time, which can be replaced in a simple manner in the event of contamination, without having to be additionally cleaned.
- the drain strainer can also be attached to drains which have an integrated closure, without the functionality of the closure being essentially negatively affected.
- the drain strainer is made from a film that is essentially permeable to a liquid. The film can be produced in a particularly simple and therefore also advantageous manner if at least one side of the film is provided with an adhesive layer.
- the terms "film”, “film-like structure” and “drain strainer” are used synonymously with respect to the present invention, since the drain strainer essentially consists only of such a film or of such a "film-like structure".
- the drainage screen consists of several foils glued one above the other, the top foil being pulled off the foil stack as soon as it is contaminated.
- a preferred embodiment variant provides that the drain strainer has fewer than 20 foils. As a result, the drain strainer remains arranged on the drain even after a contaminated film has been removed.
- the object of the invention is also achieved by a method for producing with a drain sieve described above, in which a film is provided with material recesses and an area around these material recesses is provided with an adhesive.
- a film provided on one side with an adhesive can be made permeable to at least one liquid.
- a drain filter made from a film since such adhesive films already exist as a mass product.
- Such a film then advantageously only needs to be made permeable. This can be done either by making holes or slots. It has been shown that this introduction of holes or slots does not have to be restricted to a specific area of the film or the drain strainer. Rather, the drain strainer can be produced particularly inexpensively if the holes or slots are made regardless of a certain area.
- the holes and the slots can also be combined with one another on a film of the drainage screen. In this way, an advantageous alternative to existing drainage screens can be provided for the filtering process.
- a drain screen provided with slits is advantageous since the slits close almost completely when the liquid does not flow through the opening created by the slits on the film. It goes without saying that the slots can also be attached to the film in such a way that this is not the case.
- the invention is solved by a method for producing a drain strainer, in which the drain strainer is produced from a film or a film-like structure.
- the present drain strainer can be produced particularly easily if at least one film or a film-like structure is fed to at least one rotating roller with which drain strainers are punched out of the film or of the film-like structure.
- drain filter for filtering a liquid, in particular a waste water from a container such as a wash basin or laboratory sink, a bath tub or a shower.
- the present drain strainer does not need to be laboriously cleaned, but is simply disposed of if necessary and replaced with a new film or a new drain strainer.
- FIG. 1 shows a perspective view of a drain filter made of a film with holes arranged in a circle
- FIG. 2 shows a perspective view of a further drain sieve with holes arranged in the center as a filter area and an edge area set apart from it as a holding area,
- Figure 3 is a perspective view of a drain strainer with a cylindrical shape
- FIG. 4 shows a perspective view of a drain strainer with a cylindrical filter area, in which not only the bottom of the filter area has holes, but also the outer surface of the filter area,
- FIG. 5 shows schematically a cross section through a drain strainer without a particularly pronounced holy depression as a filter area
- FIG. 6 schematically shows a cross section through a drain strainer with a slightly pronounced holy depression as a filter area
- FIG. 7 schematically shows a cross section through a drain strainer with a cylindrical depression, in which only the bottom of the depression has holes,
- FIG. 8 schematically shows a cross section through a drain sieve with a truncated cone-shaped depression, in which both the bottom and the lateral surface have holes
- FIG. 9 schematically shows a cross section through a drain with a film inserted therein
- FIG. 10 schematically shows a cross section through a further drain with an alternatively designed film
- FIG. 11 schematically shows a top view of a drain strainer which has a plurality of foils arranged one above the other
- FIG. 12 schematically shows a plan view of a drain strainer which is provided with holes throughout
- FIG. 13 shows a schematic plan view of a drain screen provided with slots
- FIG. 14 schematically shows a cross section of a drain strainer with slots
- FIG. 15 schematically, a top view of a drain strainer with curved slots
- FIG. 16 schematically shows a plan view of a further drain sieve with a downward curve
- Figure 17 schematically shows a plan view of a drain strainer with holes and slots.
- the drain strainer 1 shown in FIG. 1 essentially consists of a film 2.
- the film 2 has a flat circular shape, similar to a disk, and has a plurality of holes 4 at a distance from its radial boundary 3 (here numbered only as an example) ) on.
- the holes 4 are arranged concentrically around the central axis 5 of the film 2 and essentially form a filter area 6 of the drain strainer 1.
- Between the filter area 6 and the radial boundary 3 of the film 2 is the actual holding area 7 of the drain strainer 1, with which the film 2 is attached to a drain 8. So that the drain filter 1 adheres to the drain 8 at a point at which it was originally arranged, the holding area 7 on the side 35 facing the drain 8 (see also FIG.
- the adhesive 33 has a sufficiently strong adhesive force so that the film 2 remains securely attached to the drain 8 even over a longer period of time, for example more than a week.
- the adhesive 33 has a consistency such that the film 2 can be removed from the drain 8 easily and without residue.
- the film 2 is in this case made of a flexible material, so that it is generally completely removed when it is detached from the drain 8.
- the film 2 generally has an adhesive surface, to which in particular small solids, such as hair, adhere when the liquid flows past and thus do not get into the drain 8.
- the drain strainer 1 of this exemplary embodiment is particularly suitable for being arranged at a drain 8, in which a drain plug (not shown here) is generally permanently arranged, which is moved by a mechanism located in the drain 8 (not shown here).
- a waste water 8 flows between the drain plug and the drain 8 into a waste water system (not shown here).
- the holes 4 arranged concentrically on the film 2 are, when the film 2 is properly attached to the drain 8, in the area in which the waste water flows between the drain plug and the drain 8 into a waste water system.
- the waste water which flows through the holes 4 of the film 2, flows past it when the drain plug is open.
- the film 10 shown in FIG. 2 has a number of holes 11 (shown here only as an example) and is therefore at least permeable to a liquid such as waste water.
- the area in which the holes 11 are arranged is the filter area 12 of the film 10.
- a holding area 14 of the film 10 is arranged, with which the film 10 is arranged at a drain 15.
- the filter area 12 is designed as a light depression 49 (see FIG. 7).
- the filter area 12 is thus lower than the holding area 14 of the film 10.
- the holding area 14 has an adhesive 33 on the side 35 of the film 10 facing a substrate 15 (see also FIG. 5).
- the film 10 has a tab 16 in the region of its radial boundary 13.
- the tab 16 is adhesive-free, so that, in contrast to the holding area 14, it adheres less strongly to the substrate 15.
- the foil 17 illustrated in FIG. 3 has a deeper depression 18, the depression 18 of the foil 17 having an essentially cylindrical outer surface 20. Due to the cylindrical surface 20, the film 17 adapts very well overall to a commercially available drain 66 (see, for example, FIG. 9), so that the film 17 essentially completely uses the cross section of the drain 66 (see, for example, FIG. 9). As a result, the original drain capacity of the drain 66 (see, for example, FIG. 9) is hardly negatively influenced.
- the bottom of the depression 18 has a large number of holes 19 (numbered here only by way of example), which make the film 17 permeable, in particular for a liquid 70 (see also FIG. 9).
- a holding area 22 directly adjoins the depression 18.
- the holding area 22 runs in a ring around the outer surface 19 and thus forms a collar.
- the holding area 22 also has an adhesive 33 on a side 35 facing a substrate 23 (see in particular also FIG. 5).
- the side 35 of the film 17 facing away from the substrate 23 has essentially adhesive properties, so that particles dissolved in a liquid 70 (see FIG. 9) can easily adhere to it. This reduces the likelihood that these particles will enter a sewage system (not shown here).
- the film 24 shown in FIG. 4 also has a deep depression 25.
- the lateral surface 26 of the depression 25 is essentially conical, so that the depression 25 essentially forms a truncated cone.
- the additional holes 28 in the lateral surface 26 of the film 24 give it an additional permeability. Due to the conical shape of the lateral surface 26 of the film 24, the lateral surface 26 does not lie against a drain 29 when the film 24 is properly attached such that the holes 28 are closed. A liquid 70 (see FIG. 9) can thus be filtered through the holes 28.
- the permeability of the film 24 can also be varied.
- a holding area 30 adjoins the lateral surface 26 of the depression 25, with which the film 24 can be glued to the drain 29, provided the holding area 30 is adequately provided with an appropriate adhesive 33 (see FIG. 5).
- the film 31 shown in FIG. 5 is essentially designed as a flat, round disk.
- the film 31 has an adhesive 33 in its edge area 32.
- the adhesive 33 is arranged on the one hand in a ring shape on the edge region 32 and on the other hand on a side 35 of the film 31 facing an outlet 34.
- the edge area 32 provided with the adhesive 33 essentially forms a holding area 7 (see for example FIG. 9) of the film 31, with which the film 31 is glued to the drain 34.
- the actual filter region 37 which is enclosed by the annular edge region 32, is located towards the center 36 of the film 31.
- the filter area 37 is permeable through a large number of holes 38 (here only schematically and numbered as an example).
- the film 31 is thus permeable, in particular, to a liquid 39.
- FIG. 6 Another embodiment variant of a film 40 (FIG. 6) has an annular holding area 42 provided with an adhesive 41.
- the holding area 42 encloses a filter area 43 which has a series of holes 44.
- the filter area 43 is designed here as a kind of depression 45, so that the filter area 43 is arranged slightly below the holding area 42.
- the foils 46 and 47 from FIGS. 7 and 8 represent further exemplary embodiments of drain sieves.
- the film 46 (FIG. 7) has a filter area 48 which is designed as a depression 49 with an essentially cylindrical outer surface 50.
- the film 46 has a multiplicity of holes 52 in the bottom 51 of the depression 49 (shown here only schematically and as an example), by means of which a liquid 53 is filtered.
- the liquid 53 here passes from an inlet area 54 to an outlet area 55.
- An annular holding area 56 connects to the filter area 48 and is used to glue the film 46 to a drain 34 (see also FIG. 34).
- the holding area 56 has an adhesive 57 for gluing.
- the depression 49 has a depth 49A, which in this exemplary embodiment is measured starting from an upper edge 56A of the holding region 56 to the bottom 51 of the depression 49.
- the film 47 has a filter area 58, which is also designed as a depression 59.
- the depression 59 has a conical outer surface 60 which, in addition to the perforated base 61, has further holes 62 (shown here only schematically and by way of example). In this way, the permeability of the filter area 58 can be additionally varied.
- the film 47 also has a holding area 63, on the underside 64 of which an adhesive 65 is arranged.
- a film 67 is inserted in a drain 66 with holes 66 A.
- the film 67 consists of a joint-like structure, so that the complete film 67 represents a filter area 12 (see, for example, FIG. 2).
- the felt-like structure has a number of additional holes 68 (only indicated here by way of example).
- the film 67 can be inserted loosely into the drain 66, so that the film 67 does not necessarily have to have a holding area 69.
- the film 67 in this exemplary embodiment is “clamped” in the drain 66, so that this film 67 also has a “holding area 69” to a certain extent.
- a liquid 70 which passes through the film 67 from an inlet area 71 to an outlet area 72, can advantageously be filtered through the film 67.
- An alternative foil 74 is inserted in another drain 73 with holes 73 A (see FIG. 10).
- the film 74 has a raised edge 75, which preferably runs all the way around. In this way, a type of basin 76 is formed, in which dirt particles 77 can advantageously accumulate.
- the film 74 essentially consists of a felt-like material.
- a liquid 78 that flows from an inlet area 79 to an outlet area 80 can be filtered by means of the film 74. It is possible that the film 74 is arranged with its raised edge 75 pointing in the direction of the outlet area 80 into the drain 73. As a result, the film is arranged substantially away from the holes 73A of the drain 73 by the height of the raised edge 75.
- the film 74 has additional holes 68 (see also FIG. 9), since when the film 74 is attached to the drain 73, it is not necessary to pay attention to whether the position of the holes 73A of the drain 73 coincides with the position of the Holes 68 (see also FIG. 9) of the film 74 match and the holes 68 and 73A are not closed by a region of the drain 73 having a material or by a region of the film 74 having a material. This can optionally be done with a film 74 lying directly on a drain bottom 81.
- the film 73A is arranged at a distance from the drain bottom 81 in the drain 73, so that between the film 74 and the drain bottom 81 there is an empty space 89.
- Such an empty space 89 is also advantageous with regard to the foils described above, so that inadvertent closing of the drainage passages is avoided as far as possible.
- FIG. 11 shows a drain strainer 82, which is formed by a plurality of foils 83, 84 (shown and numbered here only by way of example).
- the films 83, 84 are glued one above the other and can be peeled off individually if necessary. That is, the top sheet 83 in the case contamination is removed from the underlying film 84. This continues until the bottom film (not shown here) of the drain strainer 82 is also used up. A new drain strainer 82 is then arranged on the drain 73 (see, for example, FIG. 10).
- Each film 83, 84 has a tab 85 which is preferably free of adhesive (here only exemplified). Since the drain sieve 82 in this exemplary embodiment also has a further nine foils 83, 84, the drain sieve accordingly also has nine tabs 85, each foil 83, 84 a tab 85. By means of the tabs. 85, the respective film 83, 84 can be removed more easily from the remaining films 83, 84 of the drain strainer 82. In order to reach the individual tabs 85 more easily, they are arranged next to one another in this exemplary embodiment.
- the films 83, 84 of the drain strainer 82 from FIG. 11 have an annular holding area 86 which encloses a filter area 87.
- the filter area 87 is permeable through a multiplicity of holes 88 and, in this exemplary embodiment, is designed as a depression 49 (see FIG. 7).
- the drain screen 90 (see FIG. 12) is provided with holes 92 (numbered here only by way of example) over the entire film surface 91.
- the drain strainer 90 also has holes 92 at its edge region 93. The drain sieve 90 is thus particularly easy to produce, since the film surface 91 can be machined uniformly to make the holes 92.
- the drain strainer 94 illustrated in FIG. 13 does not have holes 92 (see FIG. 12) but a plurality of slots 95 (numbered here only as an example).
- the slots 95 give the drain screen 94 a certain permeability, so that a liquid 78 (see FIG. 10) can also be filtered with the drain screen 94.
- two slots 95 cross each other. It goes without saying that such slots can also run approximately parallel to one another.
- FIG. 14 shows a drain screen 96 which essentially has slots 95 (see FIG. 13).
- material areas 97 of the drain screen 96 are folded out of the actual film plane 98 in such a way that holes 99 (numbered here only by way of example) form in the area of the slots 95.
- Curved slots 101 are punched into the film 102 on the drain screen 100, which is also shown in FIG.
- the curved slots 101 result in an approximately crescent-shaped opening 108 (see FIG. 16).
- the drain strainer 100 has a tab 103 in order to be able to remove the glued drain strainer 100 more easily from a surface.
- FIG. 16 shows a drain strainer 104 with crescent-shaped slots 105 (numbered only as an example).
- openings 108 result through which a liquid 78 (see FIG. 10) can flow through the drain screen 104.
- the drain screen 104 has a tab 109 for easier removal from a base.
- the drain strainer 110 shown in FIG. 17 has a combination of openings 111 and slots 112.
- the drain sieve 110 thus has both variable, preferably reclosable, openings 108 (see, for example, FIG. 16) and openings 111 which are permanently open.
- the drain strainer 110 has a tab 113, with the aid of which the drain strainer 110 can be removed more easily from a surface.
Landscapes
- Engineering & Computer Science (AREA)
- Environmental & Geological Engineering (AREA)
- Health & Medical Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Hydrology & Water Resources (AREA)
- Public Health (AREA)
- Water Supply & Treatment (AREA)
- Filtration Of Liquid (AREA)
Abstract
Description
Claims
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE10393991T DE10393991D2 (de) | 2002-12-23 | 2003-12-17 | Abflusssieb, Verfahren zum Herstellen eines Abflusssieb und Verwendung eines solchen Abflusssiebes sowie Verwendung eines permeablen Gebildes |
AU2003298064A AU2003298064A1 (en) | 2002-12-23 | 2003-12-17 | Drain sieve, method for the production of a drain sieve, use of such a drain sieve, and use of a permeable structure |
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE2002161487 DE10261487A1 (de) | 2002-12-23 | 2002-12-23 | Folie, Abflusssieb, Verfahren zum Herstellen eines Abflusssiebes und Verwendung einer solchen Folie sowie Verwendung eines permeablen Gebildes |
DE10261487.3 | 2002-12-23 | ||
DE10310090 | 2003-03-06 | ||
DE10310090.3 | 2003-03-06 |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2004059095A1 true WO2004059095A1 (de) | 2004-07-15 |
Family
ID=32683492
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/DE2003/004163 WO2004059095A1 (de) | 2002-12-23 | 2003-12-17 | Abflusssieb verfahren zum hestellen eines abflussiebesund verwendung eines solchen abflusssiebes sowie verwendung eines permeablen gebildes |
Country Status (3)
Country | Link |
---|---|
AU (1) | AU2003298064A1 (de) |
DE (1) | DE10393991D2 (de) |
WO (1) | WO2004059095A1 (de) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2421178A (en) * | 2004-12-16 | 2006-06-21 | Daniel Bryan Dennis | Disposable mesh strainer or hair trap for the waste water outlets eg of baths, basins or shower trays |
EP2681368A4 (de) * | 2011-02-28 | 2016-09-14 | Sink Skin Ltd | Siebe und stecker dafür |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4671976A (en) * | 1985-10-31 | 1987-06-09 | Vidal Stella M | Web-type stock material with upwardly projecting filamentary elements and defined periphery |
US5376264A (en) * | 1993-02-11 | 1994-12-27 | Betancourt; Sergio | Drain trap |
DE19719419A1 (de) * | 1997-05-12 | 1999-03-11 | Hans Rudolf Baser | Zusatzsieb für eine Becken- oder Wannenabflußöffnung |
WO2001077450A1 (en) * | 2000-04-08 | 2001-10-18 | Kim Hyun Woo | Disposable garbage strainer for kitchen sink, method for manufacturing the same, and apparatus for coating the same |
-
2003
- 2003-12-17 DE DE10393991T patent/DE10393991D2/de not_active Withdrawn - After Issue
- 2003-12-17 WO PCT/DE2003/004163 patent/WO2004059095A1/de not_active Application Discontinuation
- 2003-12-17 AU AU2003298064A patent/AU2003298064A1/en not_active Abandoned
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4671976A (en) * | 1985-10-31 | 1987-06-09 | Vidal Stella M | Web-type stock material with upwardly projecting filamentary elements and defined periphery |
US5376264A (en) * | 1993-02-11 | 1994-12-27 | Betancourt; Sergio | Drain trap |
DE19719419A1 (de) * | 1997-05-12 | 1999-03-11 | Hans Rudolf Baser | Zusatzsieb für eine Becken- oder Wannenabflußöffnung |
WO2001077450A1 (en) * | 2000-04-08 | 2001-10-18 | Kim Hyun Woo | Disposable garbage strainer for kitchen sink, method for manufacturing the same, and apparatus for coating the same |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2421178A (en) * | 2004-12-16 | 2006-06-21 | Daniel Bryan Dennis | Disposable mesh strainer or hair trap for the waste water outlets eg of baths, basins or shower trays |
EP2681368A4 (de) * | 2011-02-28 | 2016-09-14 | Sink Skin Ltd | Siebe und stecker dafür |
Also Published As
Publication number | Publication date |
---|---|
DE10393991D2 (de) | 2005-09-08 |
AU2003298064A1 (en) | 2004-07-22 |
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