• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a metering lid for a metered supply of substances in a further substance to be mixed therewith, comprising a screw cap which can be screwed onto an external thread of a screw neck (11) of a container via an internal thread, the screw cap in the interior having a receiving space (8). for a substance (21), preferably for a substance (21) in a separate dosing container, which can be dispensed into the screw neck (11), wherein the screw cap has an annular collar (5) directed axially into the screw neck (11) , 5a) having a peripheral edge. The invention is characterized in that the annular collar (5, 5a) has a weakened cross section at at least one point, wherein upon rotation of the screw cap on the screw neck (11) an annular edge (18) of the screw neck (11) adjoins the outer circumference of the Ring collar (5, 5a) applies and this bends directed radially inwardly at least in the region of its cross-sectional weakening.
    公开号:CH707261B1
    申请号:CH01948/13
    申请日:2013-11-22
    公开日:2018-07-13
    发明作者:Krayenbühl Andrea
    申请人:Pierre Krayenbuehl;
    IPC主号:
    专利说明:

    Description: The invention relates to a metering cap according to claims 1, 3 and 8, which allow a metered delivery of substances.
    Under a metered feed is a release of any substances, be it understood as liquids, suspensions, powders, granules, gases and the like from a dosing into a receiving volume. The dosing is in this case hermetically sealed as possible. The substances may include nutrients such as carbohydrates, proteinogenic amino acids, non-proteinogenic amino acids, nutritional supplements such as vitamins, salts, trace elements, minerals, hormones, phytochemicals (flavors and dyes), fiber, any medical substances or substances for the well-being, medications , Taste and pleasure substances, in particular taste enhancers, taste modulators and flavorings, Probioti-ka, prebiotics or synbiotics act.
    When container in which the content of the dosing is dispensed, it may be a bottle (made of glass, various plastic or other material), a can or other receptacle, in the liquids, suspensions, powders, granules , Gases and the like are arranged.
    A metered delivery of substances from a metering container is known in the prior art. The subject matter of WO 2003/051 744 A1 describes a dosing lid which is designed as a screw cap and in which a strong pressure is exerted on the screw cap by a finger pressure on the upper lid surface such that a substance arranged below the screw cap in a receiving volume is squeezed out.
    Such a closure cap is also disclosed in DE 10 2010 022 945 A1, wherein a container is arranged in the closure cap, which is destroyed by exerting pressure on the curved and flexibly formed lid top and thus emits a substance.
    Disadvantages arise in the metered delivery by means of finger pressure on the top of the screw: the stiff operation, the necessary effort and the risk that the screw is damaged or destroyed at excessive pressure.
    Because of the high deformation pressure with the finger on the lid of the screw, there is the further disadvantage that both the bottleneck on which the screw is screwed, and the bottle must have a certain mechanical stability.
    It is thus a very expensive solution, because the actual pressure force must be applied to a part which is hidden below a hinged fuse cover. Therefore, the manufacturing cost of this known screw cap will be very high.
    Such Dosierdeckel is not suitable for pressurized bottles, because the destined for destruction membrane must be relatively thin-walled, and the pressure exerted by the container on the inside of the membrane internal pressure would destroy the membrane.
    In addition, there is a problem that because of the necessity of the arrangement of a thin-walled plastic, which can be deformed with finger pressure, sealing problems exist.
    In a further embodiment of this document, a further embodiment is disclosed in which a substance to be dispensed is arranged in a dome-like substance container which is placed on the screw neck of the bottle. In order to avoid premature destruction of this substance container, it is provided that an adapter ring surrounds this substance container. To introduce the substance into the bottle of the intermediate ring is removed only by unscrewing the upper part of the bottle, then put the substance container again on the bottle and then blow it up by a finger pressure on the top of the substance container. As a result, the contents of the substance container is delivered to the contents of the bottle. Again, there are the same disadvantages, namely that the dosing must be destroyed by targeted finger pressure, which is associated with the disadvantages described above.
    The same criticism applies to WO 2004/089 777 A2 or EP 1 710 169 A1, in which a cap must be removed in order to destroy a patch capsule by finger pressure. Such a technique is also described with the subject matter of DE 10 2007 028 707 B3.
    EP 1 495 988 A1 discloses a metering lid in which a beveled inner tube extends, which pierces a container when screwed onto a bottle with the bevelled edge of the inner tube, which thereby emits a substance in the bottle.
    Disadvantage of this embodiment is that the Dosierdeckel must be relatively high, since the inserted into the container inner tube must first pass through the entire container with the substance, and then to crush the container bottom. In addition, it is not possible in this embodiment to permanently install or use the dosing into the dosing. Rather, the dosing is already in the bottle.
    The invention is therefore the object of developing a dosing with permanently installed or einzusetzendem dosing so that can be dispensed with an undefined destruction by finger pressure, and that instead a targeted destruction of the dosing alone by the screwing of the screw on the Schraubhals a container is achieved.
    The object is achieved by providing a Dosierdeckels for a metered supply of substances in a further substance to be mixed therewith, comprising a screw cap (1), which via an internal thread (2) on an external thread (12) of a screw neck (11 ), wherein the screw cap (1) in the interior of a receiving space (8) for a substance (21), preferably for a substance (21) in a separate metering container (20), which in the Schraubhals (11) can be issued , wherein the screw cap (1) has an axially in the screw neck (11) directed, at least partially encircling annular collar (5, 5a) having a peripheral edge (14), characterized in that the annular collar (5, 5a) at least one point Weakened cross-section, wherein upon rotation of the screw cap (1) on the screw neck (11), an annular edge (18) of the screw neck (11) on the outer circumference of the annular collar (5, 5a) applies and this bends radially inwardly at least in the region of its cross-sectional weakening.
    In the interior of the screw cap a receiving space is defined in the invention, in which preferably a dosing is added. The metering container preferably has radial projections which project beyond the diameter of the receiving space.
    The radial approaches are suitable for bearing on the annular edge of the screw neck of the container, where they can be brought with increasing screwing of the screw on the Schraubhals to the plant and pinch or clamp the dosing.
    In an alternative embodiment, the annular edge (18) of the screw neck (11) at the bottom of at least one radial projection (25) of the dosing (20) sets and bends with further screwing the screw (1) on the Schraubhals ( 11) the approach (25) and thereby destroyed the dosing (20).
    Under the destruction is a burst, tearing or the like. At one or more points of the dosing understood, whereby the internal substance to the underlying screw neck or to the underlying container can be delivered. In one embodiment, the lower closure surface of the dosing container close to the screw neck ruptures at the rupture edge in the region of the conical annular collar.
    With further screwing of the screw in the direction of the screw neck of the container thus the lugs are clamped to the lid side of the dosing. This then leads to a compression of the dosing on top of the screw neck. As a result, a tension on the closure surface of the dosing is generated so that it is torn.
    In a further development of this idea is still provided that the integrally formed in the interior of the inside of the screw ring collar ring collar is conical. This means that it has, for example, a greater length with respect to a diameter center line on the left side than comparatively on the right side of the one center line drawn through the screw cap.
    Thus, the annular collar is conical, and it consists of at least one area which engages deeper into the Schraubhals than comparatively other areas.
    When screwing the ring-shaped straight screw neck on the provided with a chamfer ring collar therefore there is an uneven compression of the dosing, which means that he breaks up at this point where the higher compression due to the inclined part of the annular collar breaks and puts its substance in the screw neck and thus in the receptacle.
    Another essential feature of a preferred embodiment of the invention is that the dosing is clamped with the radially outwardly directed lugs in the space between the outside of the cover-side annular collar and the screw neck of the container, so as to the dosing in the receiving space inside the screw to fix and secure against twisting.
    In a preferred embodiment of the invention, it is provided that the dosing is received frictionally in the receiving space of the screw. Here, protruding and radially inwardly directed knobs, tips or other projections are arranged on the inside of the annular collar, which create friction against the outer wall of the dosing and secure it against rotation and falling out.
    In a second embodiment of the invention, it may be provided that the dosing is used with play or also frictionally engaged in the receiving space on the inside of the screw, but there is fixed with a suitable adhesive.
    In a further embodiment of the invention it can be provided that the receiving space can be inserted with or without sealing lip as a separate part in the bottom of the dosing.
    In a further embodiment of the invention, it may be provided that the receiving space can be inserted with or without a sealing lip and a bottom as a separate part in a ring made of plastic, bioplastic or metal and then form the two parts Dosierdeckel.
    In a further embodiment, the lid is formed only as a separate ring. In the ring then a recording room can be inserted. The decisive factor here is that the ring and the receiving space can be made of different materials. The receiving space can be preferably click in and thus lock with the ring.
    In a further embodiment, the insertable receiving space may already contain the substance to be dispensed and be completed by a closure surface. Of course, the dosing can be inserted into the receiving space.
    The dosing and / or receiving space can / may also be divided or have several compartments containing different substances. Subdivided or divided into compartments are defined as delimited spaces that are separated by dividing walls.
    The compartmentalization can be designed differently. Thus, in a first embodiment, these may be subdivided into several sections, however, they may, so to speak, form a unit through contiguous partition walls, and thus be e.g. pick up a blister.
    Or, in another embodiment, it can form "independent" individual components which, according to the tear-open principle that is essential to the invention, respectively. Destruction principle to be opened.
    Likewise, the Dosierdeckel be present in any sizes and for narrow-mouth bottles, wide-mouth bottles or for any container, even large containers, be formed.
    The height of the dosing is arbitrarily high and depends mainly on the volume of the dosing or the volume of the enclosed substance.
    The Dosierdeckel can consist of any material here. For example, it can be made of plastics or metal.
    Incidentally, the invention is not limited to the fact that the annular collar arranged in the screw cap is designed to encircle the ring. It may also be segmented and consist of several resilient flaps, which are axially directed into the screw neck and have exemptions between them.
    In a preferred embodiment of the invention, the screw cap consists of a plastic material which is produced by injection molding. However, the invention is not limited thereto. In another embodiment, it is provided that the screw cap made of metal (for example, aluminum) or consists of a bioplastic. The bioplastics may be: 1. non-biodegradable natural-fiber-reinforced plastics or wood composites, 2. biodegradable substances from renewable raw materials of plant origin (starch, starch derivatives, cellulose, cellulose derivatives, lignin), substances of animal origin (chitin, chitosan, Proteins such as casein, gelatin), microorganism-producible substances (polylactic acid (PLA), polyhydroxy fatty acids (PHB, PHV)) or 3. biodegradable fossil raw materials.
    He may be colored in any way. The lid size and lid shape are arbitrary. They can be provided for narrow-mouth bottles, for wide-mouth bottles or for any container which is also designed as a large container. The height of the screw is arbitrarily high and depends mainly on the volume of the metering container receiving space on the inside of the screw from.
    In a preferred embodiment it is provided that radially outwardly adjoins the annular collar of the screw cap, which is preferably formed directly on the material of the screw, a radially outwardly directed sealing lip adjoins, which applies sealingly on the outer circumference of the screw neck of the container.
    In some applications, however, can be dispensed with such a sealing lip.
    The Schraubhals, which engages with its annular edge in the interior of the screw and clamps on the outer circumference of the annular collar, may be formed herumumlaufend. However, it can also be segmented and consist of individual axially directed resilient lobes which have exemptions between them.
    The Schraubhals is part of a container which is not shown in detail. This container may be formed in any way. It can be a bottle, a can, a canister, or any other container. The invention is not limited to the fact that a separate dosing container is used as a separate part in the receiving space in the screw cap and held there by frictional elements or by adhesive elements.
    In another embodiment of the invention it is provided that the receiving space is provided directly for receiving a substance, which means that the wall portions are formed directly by the surfaces of the screw cap and in particular by the inner surfaces of the annular collar.
    In this case, it is sufficient to complete the receiving space only on the inside with a suitable breakable or destructible closure surface. Such a closure surface may be formed as a cover. So it does not have to be thin like a foil, but it can also consist of a breakable plastic or bioplastic, which has any weakening lines that define weakened areas in the plastic part, so that precisely targeted at these points of the plastic can be broken.
    The conclusion of the receiving space with said closure surface can be done by any locking mechanisms. For example, the closure surface can be applied in the heat-sealing process, in the adhesive process, in the welding process, in the screwing process or in the plug-in process. Decisive in this embodiment is that the destruction of the receiving space is characterized in that the receiving space around the bounding annular collar at least one point has a weakened cross-section and that when screwing the screw on the screw neck, the annular edge of the screw neck deforms the outer circumference of the annular collar and this bends radially inwardly at least in the region of its cross-sectional weakening, so that thus a deformation pressure on the receiving space and in particular the closure surface is exerted, which bursts with a suitable pressure increase.
    In one embodiment of the invention, it may be provided that a radially inwardly directed web or a tip is arranged radially inwardly of the weakened cross section of the annular collar, which is directed into the volume of the dosing.
    Now, if this cross-section weakened web deformed radially inwardly, then this web also penetrates into the volume of the container and deforms the rest, the lid-side closure surface, which thereby ruptures at this point.
    In the following the invention will be explained in more detail with reference to drawings showing only one embodiment. Here are from the drawings and their description further features essential to the invention and advantages of the invention.
    It shows:
    1 shows the schematic section of a first embodiment of a screw without Dosierbehälter;
    FIG. 2 shows the metering container for installation in FIG. 1; FIG.
    FIG. 3 shows the dosing container installed in the screw cap in the idle state; FIG.
    Fig. 4: the illustration of Figure 3 with destroyed dosing.
    Fig. 5: a comparison with Figure 1 modified embodiment of the seal between the sealing lip and Ringkra gene.
    6 shows a second embodiment of a screw cap in which the substance to be dispensed is in the receiving space with a destroyed closure surface;
    FIG. 7 shows the same illustration as FIG. 6 in the idle state; FIG.
    FIG. 8 shows a further embodiment of the metering lid with a step-like receiving space; FIG.
    9 shows an embodiment of the metering container with two different side surfaces and a small projection.
    The screw cap 1 according to FIGS. 1 and 3 is preferably made of a plastic material or bioplastic and has in the interior an outer sealing lip 3, which is formed on the material of the screw cap 1. Further radially inwardly directed an annular collar 5 is provided, wherein in the space between the sealing lip 3 and the annular collar 5, an inner annular space 9 is defined.
    The annular collar 5 is formed circumferentially closed.
    The invention is not limited thereto. In another embodiment, it may also be provided that the annular collar is circumferentially segmented, that is, it consists of exemptions and exempted resilient elements that point axially directed into the interior of a screw neck 11.
    The screw cap 1 is screwed with its suitable internal thread 2 on the external thread 12 of the screw neck 11.
    In the illustrated embodiment of FIG. 1 is merely shown that a receiving space 8 is formed in the inside of the screw cap 1, which is laterally defined by the ring-encircling or partially encircling ring collar 5, and having on its underside a peripheral edge 14, which is not on a horizontal plane, but which forms with a sloping part 16, which is formed at an angle 13 to the circumferential horizontal peripheral edge 14. The peripheral edge 14 thus consists of the straight part 15 and the inclined part 16. The inclined part 16 thus results in that a part of the annular collar 5 has an extended projection 17 and thus forms a tip 37.
    It is also indicated that 5 protrusions in the manner of nubs, ribs or other friction-increasing elements are arranged on the inner wall of the annular collar, which are adapted to receive the dosing frictionally, when it is pressed or pressed into the receiving space 8 ,
    He should therefore be recorded there as possible friction.
    Instead of a frictional recording, however, the dosing 20 can also be glued or otherwise fixed in the receiving space 8.
    Instead of a bond, other mechanical holding means may be used, such as screw, snap-in, barbs and the like.
    The metering container 20 is preferably made of thin-walled side surfaces 22 and a thin-walled bottom side 23. It may be formed, for example, as a plastic blister of degradable polyester or bioplastic.
    The lid side 24 of the dosing 20 preferably consists of a thick-walled material, wherein the lid side 24 is the main wall thickness of the dosing 20. However, it is not absolutely necessary that the cover side 24 is thicker than the other material thicknesses of side surface 22 and bottom side 23.
    It is hereby preferred if the cover side 24 is enlarged in diameter by radially outwardly directed, annular attachment projections 25.
    These lugs 25 can either be formed as a circumferential ring approach or they can also be segmented by exemptions and consist of individual lobes.
    The receiving space of the dosing container, as shown in FIGS. 3 or 9, can also be subdivided into several compartments (rooms). These can be interconnected or spatially separated. The same applies to the receiving space, as shown in Fig. 7.
    Fig. 1 also shows that the screw neck 11 with its upper annular edge 18 sealingly abuts against a stop 4 of the sealing lip 3 in order to achieve a sealing effect there. In this way, the contents of the container, which is provided with the screw neck 11, sealed relative to the screw cap 1.
    The metering container 20 of FIG. 2 is filled with any substance 21. It can be liquid, pasty, powder or granules, gaseous or solid.
    Fig. 3 shows the resting state of the screw when the substance 21 is not dispensed from the dosing 20 in the Schraubhals 11 or fallen into it. There it can be seen that the annular edge 18 of the screw neck rests against the underside of the radial lugs 25, and with further screwing the screw 1 on the screw neck 11, the lugs 25 are bent and then take a shape, as shown in Fig. 4 is.
    Fig. 4 shows the position of use of the screw when the dosing 20 is open and has given its substance 21 in Schraubhals 11.
    In the embodiment of Fig. 3, the lugs 25 are clamped by radial contact on the outer circumference of the annular collar 5, so as to bring the dosing container 11 in a defined fixed position.
    It is essential that the height 36 of the dosing 20 is higher than the inner height of the receiving space 8 comparatively, so that the dosing 20 is compressed by the annular edge 18 of the screw in the Schraubhals 11 and thereby total pressurized. The screw neck 11 in this case has a horizontal
    Circumferential edge 39 on.
    Due to the oblique arrangement of the inclined part 16 of the annular collar 5, however, the pressure is unevenly discharged to the cover side 24 of the dosing 20, which is thus compressed unevenly, the cover side 24, which rests on the inclined part 16 of the annular collar 5, is compressed more as comparatively the cover side 24 of the metering container 20, which rests against the straight part 15 of the annular collar 5.
    In the area of the annular collar 5, such a large compression is produced, so that the lid side ruptures at an elevation edge 38. This is shown in more detail with reference to FIG. 4.
    Fig. 4 shows the uneven compression of the lid side 24 of the dosing 20, which thereby ruptures and in this case forms a flap 27, which folds down approximately in the direction of arrow 28 down and dispenses the substance 21 into the interior of the screw neck 11.
    Fig. 5 shows yet as another embodiment that in certain cases, the sealing lip 3 can be omitted. Otherwise, the same parts apply to the same reference numerals.
    Fig. 4 is merely a schematic representation showing only the wall thicknesses of the dosing in exaggerated form and the drawing is not exactly that in reality the dosing was already compressed in the receiving space 8 of the screw 1 with high displacement force.
    6 and 7 show a further embodiment, which differs from the previously described embodiments according to FIGS. 1 to 5 characterized in that not a separately replaceable dosing is provided, but rather a fully introduced into the receiving space 8 dosing , which is filled with the substance 21. In this case, Fig. 7 shows that the underside of this receiving space 8 is closed with a suitable closure surface 29, which is formed for example as a plastic lid, as a plastic film or the like. It can also be a biodegradable material.
    Likewise, in the closure surface 29 cross-section-weakening cutouts can be provided which define certain break-out regions.
    In another embodiment, the closure surface 29 may also be formed as a simple rupturable film.
    It is essential in this embodiment that penetrates by the rotation of the screw 1 in the screw 19, the annular edge 18 in the screw 1, wherein the annular edge 18 rests against the annular collar 5 and the weakened region 5 a radially inwardly bent in the direction of arrow 30.
    To improve the deformation of the annular collar 5a in the direction of arrow 30, a radially outwardly directed annular projection 35 can be arranged on the closure surface 29 of the screw 1, which applies when screwing the screw neck to the outside of the annular collar 5a and this ring collar 5a still reinforced Bends in the direction of arrow 30 inward.
    To destroy the substance depot arranged in the interior, it may further be provided that radially inwardly directed webs 34 are arranged on the inside of the annular collar 5a, which provide for a further compression of the content of the substance 21.
    Overall, the destruction of the closure surface 29 takes place in that the closure surface is reduced in diameter, thereby experiencing bulges and compressions. Due to these bulges and radially inwardly directed stresses, it ruptures and forms a flap 27, which releases the substance 21 into the screw neck 11.
    The invention is not limited to the formation of a metering container with a radially enlarged diameter approach 25. In another embodiment, the projection 25 can be omitted in all embodiments shown. In this case, the side wall of the metering container forms a reduced diameter annular groove.
    The side wall of the dosing 20 is then compressed by a suitable screwing the annular edge 18 of the screw neck 11 by this side wall consists of a weakened cross-section and the cover page 24 is destroyed by the resulting pressure. This is the subject of FIG. 8.
    FIG. 9 shows the metering container 20 according to the invention for the embodiment according to FIG. 8.
    This has two different side surfaces 22a, 22b, wherein the side surface 22a opposite the side surface 22b has a reduced cross section, which is formed as an annular groove. The larger diameter side surface 22b has a weakened wall cross-section, which bulges on a screwing-in movement of the screw neck on the dosing and then bursts.
    The metering container also has small, radially outwardly directed lugs 25 on the cover side 24, which serve as a sealing edge for easier production.
    Drawing legend 1 screw cap 2 internal thread 3 sealing lip 4 stop (of 3) 5 ring collar 5a 6 knob 7 peripheral line 8 receiving space 9 annular space (inside)
    权利要求:
    Claims (10)
    [1]
    10 Annular space (outer) 11 Screw neck 12 External thread 13 Angle 14 Circumferential edge 15 straight part (from 14) 16 inclined part (from 14) 17 overhang 18 ring edge (from 11) 19 screwing direction 20 dosing tank 21 substance 22 side surface (22a, 22b) 23 bottom side 24 Lid side 25 Lug 26 Arrow direction 27 Lugs (from 24) 28 Arrow direction 29 Closure surface 30 Arrow direction 31 Jump cover 32 Rim 33 Ring thinning 34 Bridge (from 30) 35 Ring extension 36 Height (from 20) 37 Tip (from 17) 38 Rip edge 39 horizontal circumferential edge (from 11) claims
    1. Dosierdeckel for a metered supply of substances in a further substance to be mixed therewith, comprising a screw cap (1) which via an internal thread (2) on an external thread (12) of a screw neck (11) of a container can be screwed, wherein the screw cap (1) in the interior of a receiving space (8) for a substance (21), preferably for a substance (21) in a separate metering container (20), which in the Schraubhals (11) can be issued, wherein the screw cap (1) an axially in the Schraubhals (11) directed, at least partially encircling annular collar (5, 5a) having a peripheral edge (14), characterized in that the annular collar (5, 5a) at least one point has a weakened cross section, wherein in the Rotation of the screw cap (1) on the screw neck (11) an annular edge (18) of the screw neck (11) on the outer circumference of the annular collar (5, 5a) applies and this at least in the region of its Querschnittssch Wetting radially inward bends.
    [2]
    2. Dosierdeckel according to claim 1, characterized in that the metering container (20) has a cover side (24) on which at least one radially outwardly directed projection (25) is arranged, which between the cover-side annular collar (5, 5 a) and the Ring edge (18) of the screw neck (11) can be clamped.
    [3]
    3. Dosierdeckel for a metered supply of substances in a further substance to be mixed, comprising a screw cap (1) which via an internal thread (2) on an external thread (12) of a screw neck (11) of a container can be screwed, wherein the screw cap (1) in the interior a receiving space (8) for a separate metering container (20) having a substance (21), which in the Schraubhals (11) can be issued, characterized in that the screw cap (1) axially into the Schraubhals ( 11) directed, at least partially encircling annular collar (5, 5a) having a peripheral edge (14), such that an annular edge (18) of the screw neck (11) of a container at the bottom of at least one radial extension (25) of a dosing (20) applies and with further screwing the screw cap (1) on the screw neck (11) the projection (25) bends over and thereby destroys the dosing (20).
    [4]
    4. Dosierdeckel according to one of claims 1 to 3, characterized in that the metering container (20) has a greater height (36) than the inner height of the receiving space (8).
    [5]
    5. Dosierdeckel according to one of claims 1 to 4, characterized in that the metering container (20) and / or the receiving space (8) are split / is.
    [6]
    6. Dosierdeckel according to one of claims 1 to 5, characterized in that a side surface (22) of the dosing (20) has a part with a weakened wall cross section (22b) and a part with a reduced in diameter annular groove (22a).
    [7]
    7. Dosierdeckel according to one of claims 1 to 6, characterized in that on the inside of the annular collar (5, 5a) projecting and radially inwardly directed projections are arranged, which create frictionally on the outer wall of the dosing.
    [8]
    8. Dosierdeckel for a metered supply of substances in another substance to be mixed with it, comprising a screw cap (1), which via an internal thread (2) on an external thread (12) of a screw neck (11) of a container can be screwed, and a separate Dosing container (20), wherein the screw cap (1) in the interior of a receiving space (8) for the separate dosing (20) with a substance (21), which in the Schraubhals (11) can be issued, characterized in that the side wall of Dosierbehälters (20), which consists of a weakened cross-section, compressed by a screwing-in of an annular edge (18) of the screw neck (11) and the cover page (24) of the dosing is destroyed by the resulting pressure.
    [9]
    9. Dosierdeckel according to one of claims 1 to 8, characterized in that the metering container in the receiving space (8) of the screw cap (1) is fixed with an adhesive.
    [10]
    10. Dosierdeckel according to one of claims 1 or 5, characterized in that the receiving space (8) is filled with a substance and with a breakable and destructible closure surface (29) is closed.
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    同族专利:
    公开号 | 公开日
    CH707261A2|2014-05-30|
    DE102012111374B3|2014-03-20|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP0093090B1|1982-04-23|1987-01-21|CAPSULIT S.r.l.|A closure for bottles and the like of the type including a breakable bottom reservoir to break during use|
    WO2003051744A1|2001-11-20|2003-06-26|Charles Rere Barnett|A package for keeping a liquid and another substance separate prior to use|
    FR2853302B1|2003-04-02|2006-02-24|Nestle Waters Man & Technology|CAPSULE WITH PERCABLE CAPSULE HAVING SUCH A CAPSULE CONTAINING A SUBSTANCE INTENDED TO BE ADDED TO THE CONTENTS OF THE CONTAINER THUS MOUTH AND CORRESPONDING CONTAINER|
    EP1495988B1|2003-07-11|2007-11-07|Jose Luis Galaz Rodriguez|Container for containing two different separate products and mixing them|
    NL1028729C2|2005-04-08|2006-10-10|Campina Nederland Holding Bv|Holder.|
    DE102007028707B3|2007-06-21|2008-09-11|Staatl. Mineralbrunnen Aktiengesellschaft Bad Brückenau|Cap with sealed dispensing chamber for beverage additives|
    DE102010022945B4|2010-06-08|2018-05-09|Georg Menshen Gmbh & Co. Kg|Cap with blister pack|DE202015009406U1|2014-08-21|2017-09-13|Obrist Closures Switzerland Gmbh|cap closure|
    GB201414882D0|2014-08-21|2014-10-08|Obrist Closures Switzerland|Improvements in or relating to closures|
    法律状态:
    2017-04-28| AZW| Rejection (application)|
    2017-06-15| NV| New agent|Representative=s name: KASCHE AND PARTNER AG, CH |
    2017-06-15| PUE| Assignment|Owner name: PIERRE KRAYENBUEHL, CH Free format text: FORMER OWNER: ANDREA KRAYENBUEHL, CH |
    2020-05-29| AEN| Modification of the scope of the patent|Free format text: :DIE PATENTANMELDUNG IST AUFGRUND DES WEITERBEHANDLUNGSANTRAGS VOM 07.06.2017 REAKTIVIERT WORDEN. |
    优先权:
    申请号 | 申请日 | 专利标题
    DE201210111374|DE102012111374B3|2012-11-23|2012-11-23|Dosing lid for metered delivery of substances e.g. nutrients e.g. carbohydrates, has threaded neck whose ring edge is formed at outer circumference of annular flange to bend radially inward in weakened cross-section area|
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