奥地利专利AT515274A1 container

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专利摘要:
In a container having an in-plane opening (3) provided on a neck (2) of the container, a closure (10) is removable by sliding in the plane. At least one guide element (4) is provided on the neck (2), on or in which the closure (10) is displaceable relative to the container (1). The closure (10) has at least one recess (16) on at least one of its outer surfaces (17, 18, 19).
公开号:AT515274A1
申请号:T975/2013
申请日:2013-12-20
公开日:2015-07-15
发明作者:
申请人:Hagleitner Hans Georg；
IPC主号:

专利说明:

The invention relates to a container having an in-plane opening and a removable closure by sliding in the plane closure, wherein the opening is provided at a nozzle of the container, and wherein at least one guide element is provided on the neck on or in which the closure is displaceable relative to the container.
The invention further relates to a dispensing system for a flowable product, comprising at least one dispenser provided with a container receptacle and at least one container containing the flowable product, which has a removable by moving the container closure and is held inverted in the container receptacle after removal of the closure , On the closure and the container receptacle similar guide elements are provided, which complement each other when inserting the sealed container or extend.
A container and dispensing system of this type are described, for example, in WO 95/09111 or WO 2008/089500. The dispenser is used for dispensing liquid or creamy products, especially in the sanitary and hygiene sector, such as soap, disinfectant, cream, etc.
A container may be inserted into a dispenser if the area of the container surrounding the opening is compatible with the container receptacle of the dispenser. This is thus a prerequisite to be able to use the container at all, but has the disadvantage that all identically designed container or at least all containers can be used with the same areas around the opening without a container with the wrong content is conspicuous. This matching is also referred to as coding, whereby different degrees of coding can be determined, which result from the number of interacting coding elements.
The container described in the prior art has a container neck or neck, from each of which on both sides a web of a sliding guide parallel to
Protruding end face, and on the closure of a clip-like C-shaped part is pushed, which engages behind the webs. The container receptacle on the dispenser is therefore the same as the closure is formed, that is, the projecting from the nozzle webs are engaged behind. This facilitates the change of the container, since a new container can be attached to the container receptacle and inserted into it, without the closure must be removed before. This is particularly advantageous because the container is used upside down, since the content can not flow out or no additional measures are necessary to prevent this. Once the closure rests against the container receptacle, the container can be moved and the webs of the nozzle slide in grooves of the container receptacle, wherein ultimately the closure is released and lies loosely in front of the container receptacle.
However, since it is desired or even necessary to fill certain dispensers only with certain containers, it is the object of the invention to provide containers and a dispensing system having a sliding closure and the engagement of the sliding guide elements beyond coding, the insertion prevent wrong container. According to the invention this is possible on the container in that the closure has at least one recess and / or a projection on at least one of its outer surfaces. For this purpose, a depot for the closure is formed in front of the container receptacle, which retains the closure during the insertion of the container in a parking position. When inserting the sealed container thus recesses and / or projections of the closure and projections and / or recesses of the depot engage with each other. If there is no match, then the closure can not be placed in the required position before the container receptacle, and the insertion of the nozzle of the container into the container receptacle fails. However, if we try this, it usually ends with some of the contents of the container pouring into the bottom of the dispenser unchecked.
As a closure, an approximately C-shaped profiled body is preferably provided, which engages on both sides projecting webs of the nozzle, and thus the outer surfaces parallel and perpendicular to the sliding direction, which are perpendicular to the plane of the container opening, and has an outer surface extending parallel to the plane. The latter lies on the middle part of the C-shaped profiled body outside, and the inner surface of the central part seals the container opening. The thickness of the middle part has a meaning, which will be discussed below.
Recesses and / or protrusions may be provided on each of the above enumerated outer surfaces, which also determines the insertion and removal of the container.
In a preferred embodiment, it is provided that for the insertion of the sealed container in the dispenser, a substantially L-shaped path is set, the first path portion extends into the depot perpendicular to the sliding direction of the container.
The sealed container is therefore moved along the first path section into the depot, from which, since the closure is stored there in the parking position, only the container can be pushed further into the container receptacle via the second path section.
The container receptacle preferably represents an upper cover of a collecting space for the product to be dispensed, for example an intermediate container, a pump inlet chamber or the like. Protrusions at the depot are therefore preferably designed so that a hole is opened into the collecting space by the removal thereof, for example to insert a non-correlating container, and the dispenser thereby becomes leaky.
In a further preferred embodiment it is provided that the depot for the closure is provided in a recess of the cover plate at the end of the first path section.
The depth of the recess corresponds to the above-mentioned thickness of the central part of the closure, so that in accordance with the coding between the closure and the depot, the inner surface of the central part of the closure is aligned with the plane of the opening of the container receptacle.
The invention will now be described in more detail with reference to the figures of the accompanying drawing, without being limited thereto. Show it:
Fig. 1 is an oblique view of a sealed container after
State of the art,
Fig. 2 shows a section through the top of the container after
Fig. 1,
3 and 4, the uppermost portion of the upside-down container in section according to Fig. 2 in juxtaposition or connection with a container receptacle of a donor,
5 is an oblique view of the uppermost portion of a first embodiment of a container according to the invention in use position, without closure,
Fig. 6 to the container of FIG. 5 matching container receptacle of a
donor
7 shows a horizontal section through the container receptacle of FIG. 6 with inserted container, FIG.
8 shows a section along the line VIII-VIII of FIG. 7,
9 and 10 representations corresponding to Fig. 7 and Fig. 8 with a container according to the prior art without exemption,
11 is an oblique view of the uppermost portion of a second embodiment of a container according to the invention in use position, without closure,
12 shows the container receptacle of FIG. 11 suitable container receptacle of a donor,
13 is a horizontal section through the container receptacle of FIG. 12 with inserted container,
14 is a section along the line XIV-XIV of FIG. 13,
FIGS. 15 and 16 show illustrations corresponding to FIGS. 13 and 14 with a container according to the prior art without release
17 and 18 are oblique views of the uppermost portions of a third and fourth embodiment of a container according to the invention, each without closure,
19 is a schematic oblique view of a first embodiment of
Donors for soap or the like,
20 is an oblique view of the uppermost portion of a fifth and sixth embodiment of a container according to the invention, inserted into an insert of the dispenser,
21 is a horizontal section along the line XXI-XXI in Fig. 22,
FIG. 22 is a front view of the elements shown in FIG. 20; FIG.
Fig. 23 is an oblique view of a seventh embodiment of a
Container with closure,
Fig. 24 is a section through the top of the container after
Fig. 25,
Fig. 25 is a schematic oblique view of a second embodiment of
Donors for soap or the like,
26 shows a section according to FIG. 8 or 14 through the container receptacle with an opened container according to FIG. 25, FIG.
27 is an oblique view of a first embodiment of a lower part of
Dispenser according to FIG. 25,
28 is an oblique view of a second embodiment of a lower part of the dispenser of FIG. 25,
Fig. 29 is a plan view of the embodiment of FIG. 28 with an im
Depot lying closure, without container,
30 shows a detail from the oblique view of a third embodiment of a lower part of the dispenser according to FIG. 25, FIG.
31 and 32 closure and plan view of a third embodiment of a
Lower part of the dispenser according to FIG. 25, with closure in the depot, without container,
33 and 34 closure and plan view of a fourth embodiment of a
Bottom parts of the dispenser according to FIG. 25, with a closure in the depot, without containers, and
35 and 36 closure and plan view of a fifth embodiment of a
Lower part of the dispenser according to FIG. 25, with closure in the depot, without container.
A container 1 of soft flexible material, such as thin plastic film, is approximately cuboid and has in an in particular provided with a reinforcing plate 13 wall an opening 3, which is provided within a tightly closable nozzle 2 or container neck. As shown in Fig. 1, the reinforcing plate 13 extends over a large part of the surface of the wall and engages with side bars 14 two opposite edges of the container 1. Details about such a container 1 and its manufacture are to be found in the aforementioned WO 2008/089500 ,
The container 1 is provided in particular for receiving liquid products, such as disinfectant, shampoo, soap or the like, and is, as shown in FIG. 19 or 25, head upright inserted into a dispenser 20, so that with the reinforcing plate 13 and the nozzle. 2 provided wall forms the stand side or the container bottom.
The nozzle 2 carries, as shown in detail in Fig. 2, a guide element 4, which is in the form of extending in both sides of his end face webs 5, and a slightly protruding from the end face sealing ring 7. As the closure 10 is an approximately bracket - or C-shaped body which is pushed from the side, wherein it engages behind the webs 5 with guide elements 11.
The formation of a sliding guide on the connecting piece 2 comprising the guide elements 4, 11 simplifies the insertion of the container 1 into the dispenser 20, of which in the further FIGS. 3, 4, 6 to 10 and 12 to 16 only the only element essential for this purpose, namely, the container receptacle 40 is shown on the cover plate 21 of the lower part. This has an opening 46 which is aligned with the inserted and sealed by the sealing ring 7 container 1 with the nozzle 2 and the opening 3 of the container 1 (Fig. 4, 8, 14). As can be seen from the illustration in FIG. 3, the container receptacle 40 on the cover plate 21 is structurally identical in terms of the guide elements to the closure 10 and can therefore also engage behind the webs 5 of the connecting piece 2 with its guide elements 41 when the container 1 is inserted into the container receptacle 40 is inserted. This is indicated in Fig. 6, in which the contour of the closure 10 is shown in dashed lines. The container 1 is thus set with the closure 10 on the container receptacle 40 in front of the guide elements 41 and then pushed over the chamfer 45 in the direction of arrow A, wherein the closure 10 is free, which remains at the attachment point, as in Fig. 7 is shown.
In order to ensure that only suitable containers or containers with suitable contents can be inserted into the dispenser, an encoding is provided, that is, the container and the container receptacle must be provided with matching elements. In particular, therefore, at least one protrusion 42 and at or in the neck 2 of each suitable container 1 at least a corresponding release 6, 6 '(Fig. 5, 11, 17) are provided on the container receptacle, each in the sliding direction (arrow A) of Container 1 extend. If the correct container is used, as shown clearly in FIGS. 4, 8, 14, the openings 3 and 46 are aligned. The insertion depth is determined by the depth of the release 6 and the length of the projection 42 and by a transverse web 44 limited to the container receptacle 40. Fig. 5 shows the upper portion of a container 1 with a nozzle 2, in which a central exemption 6 is provided, in which engages the central projection 42 shown in Fig. 6. The cross sections and lengths in the release 6 and the projection 42 are the same. In the section of Fig. 8, the inserted position is clearly visible, in which the openings 5 and 46 are aligned. The formation of a single central exemption 6 is advantageous if only one installation position of the container 1 is desired. If the container 1 can also be used twisted by 180 °, then a second central release 6 'is formed in the neck 2, which is rotated 180 ° to the first, ie diametrically opposite, as shown in FIGS. 7 and 9. In cross-section, the nozzle 2 thus has an H-shape. The projection 42, like any relief 6, 6 'in this embodiment, has a cross-sectional area made up of a rectangle followed by a triangle. If, despite two opposing
Exemptions 6, 6 'only one mounting position of the container 1 should be allowed in the dispenser, the matching closure 10 may have a in the second release 6' matching projection, so that the closure 10 can be opened only after this page.
11 shows the upper area of a second embodiment of a container 1.
In this variant, the release 6 is not centrally but laterally formed, and thus lacks a corner region of the nozzle 2. Again, preferably a second release 6 'is arranged rotated by 180 °, as shown in FIG. 13 can be seen.
Fig. 12 shows the associated container receptacle 40, in which the projection 42 is also formed off-center in the corner region. The release 6 and the projection 42 have in this embodiment a trapezoidal cross-sectional area. Fig. 13 shows a horizontal section through the nozzle 2 of the container 1 inserted into the container receptacle, thanks to the release 6 of the nozzle 2 has been inserted to the stop 44, so that the openings 3, 46 are aligned. This is again shown in the section of FIG. 14.
The insertion of a false, conventional container according to FIGS. 9, 15 without release is practically impossible since, as shown in FIGS. 10 and 16, it can be inserted over a short distance, but the openings 3 and 46 are offset in this way, that no flow is achieved.
In the two embodiments shown in FIGS. 5 and 11, the clearances 6, 6 'are provided on the connecting piece 2 below the webs 5 of the sliding guide, which thus extend over the entire depth or length. In the embodiment shown in Fig. 17, the exemption 6 extends over the entire height of the nozzle 2, so that one of the two webs 5 is shortened. Since more than half of the web remains, neither the tight fit of the closure 10 on the nozzle 2 nor the seat of the nozzle 2 in the container receptacle 40 is impaired.
As FIG. 18 shows, it is also conceivable to generate the release 6 by breaking away at least one tab 9, which is held on the connecting piece 2 via predetermined breaking lines 8.
To in the manufacture of the donor, the different
To be able to determine coding options later, the projection 42, the guide elements 41 and the crossbar 44 are advantageously provided on an insert 43 which can be arranged in adaptation to the container to be used with this dispenser in the cover plate 21 of the lower part of the container 1.
The embodiments described above provide protection against the insertion of ordinary containers of foreign manufacturers, since recesses and exemptions on the container are required by the projection in the container receptacle, which can not be subsequently formed if possible.
The inversion of the elements, namely an exemption or a return in the container receptacle and a corresponding projection on the neck, also represents a coding in a sliding closure. Such an embodiment is particularly desirable if only a confusion of the particular not to be mixed products of the same Manufacturer is to be excluded because a conventional container without a projection also fits in the container receptacle. Such an embodiment is not shown in the figures. Instead, FIGS. 20 to 22 show a mixed form in which projections and clearances are provided both on the container 1 and on the container receptacle 40.
The container 1 (indicated in FIG. 22) again has a reinforcing plate 13 which engages around two container edges with the opposite webs 14. Each web 14 has between one and six holes which form the container 1 associated exemptions 6, in the insertion of the container 1 in the container receptacle 40 and their insert piece 43 between one and six projections 42 can occur.
From this, according to the rules of combinatorics, a larger number of possibilities can be derived, each of which is then assigned to a specific product. For example, FIG. 20 shows two such protrusions 42.
Fig. 20 to 22 further show projections 12 in the form of webs projecting from the nozzle 2 in the sliding direction (arrow A) and in a corresponding orientation or exemption 6, or a corresponding recess on the container receptacle 40 penetrate when the container. 1 is used. In addition, 13 webs 15 are arranged on the reinforcing plate, which extend in the sliding direction approximately over the second half of the sliding path until they abut the in Fig. 21 and 22 recognizable projection of the insert 43 in the form of a stop 47. In this end position of the nozzle 2 is located on the cross bar 44, the projection 12 has entered the release position 6 and the opening 3 is aligned with the opening 46 of the container receptacle 40, not shown in these figures. The stop 47 is left only at the in the drawing Side formed and provided on the right side of the nozzle 2 second web 15 does not interfere with the insertion, since on this page a stop 47 is missing and thus there is also an exemption. A container receptacle 40 with an insert 43 shown in FIGS. 20 to 22 prevents the insertion of conventional containers only by the projections 42 and release 6 in the region of the upstanding webs 14, since no protrusions are provided which require exemptions on or in the nozzle 2. Stops 47 on the insert 43 or on the container receptacle 40 itself and webs 12 or 15 on the nozzle 2 and on the reinforcing plate 13 are mainly used to associate certain products to certain donors.
Fig. 23 shows a second embodiment of a container 1 in an oblique view, on the neck 2, a closure 10 is pushed, which is provided with a coding. The closure 10 shown in several embodiments in FIGS. 23 to 34 comprises, just as in the embodiments according to FIGS. 1 to 22, an approximately C-shaped body with webs 11, which engage behind webs 5 on the neck 2, and has one for Level of the container opening 3 parallel top 19, two in the sliding direction (arrow A) of the container 1 lying side surfaces 17 and two perpendicular thereto side surfaces 18.
In FIGS. 23 to 30, closures 10 are shown, which have in at least one of the two side surfaces 17 a recess 16 serving as a coding in the form of a groove. The groove 16 extends in Fig. 23 to 29 perpendicular to the plane of the container opening 3 and in Fig. 30 obliquely forward. As can be seen from FIG. 24, the depth of the groove preferably corresponds to the wall thickness, so that the web 5 of the neck 2 is exposed or not cut out. As counter elements to the recess 16 are corresponding projections 24 in the form of lugs or webs on the dispenser immediately in front of the container receptacle 40. As can be seen from Fig. 25, the region of the cover 21 of the lower part of the dispenser 20 is provided with a recess in the two Projections 24 protrude. A container 1 according to FIG. 23 can now be inserted either horizontally from the side (FIG. 27), vertically from above (FIG. 28, 29) or obliquely from above (FIG. 30) into the position in front of the container receptacle 40. This means an at least approximately or exactly L-shaped path, which is indicated by the two arrows B and A.
In Fig. 27, the L-shaped path is parallel to the plane of the container opening 3 and the plane of the opening 46 of the container receptacle 40 and the closure 10 shown in Fig. 27 - the container is not shown for clarity - reaches the first, the Arrow B corresponding path portion in the depot 23 forming space in front of the container receptacle 40, wherein the projection 24 enters the recess 16, when the two coding elements coincide. The depot 23 is deeper than the container receptacle 40 by the thickness of the upper side of the closure 10, so that the container can be further displaced in the direction of the arrow A, the closure 10 remaining in the depot 23, and the medium contained in the container 1 through the opening 3 and 46 can flow into the lower part of the dispenser 20.
The depot 23 is limited by webs 22, so that it receives the closure 10 in a form-fitting manner. As a result, the container 1 pushes back on the closure 10 during the removal against the sliding direction (arrow A), and is then again closed against the arrow B removed from the dispenser. The container 1 can therefore be replaced even partially filled without a subset is lost.
According to FIG. 28, the closed containers are lowered vertically from above (arrow B) and the closure 10 is again in the depot 23, as shown in FIG. 29, and the container can then be inserted into the container receptacle 40 (arrow A).
Fig. 30 shows the oblique arrangement of the coding elements 16 and 24, and thus also the oblique insertion direction (arrow B) in the depot 23. The second part of the path is again indicated by the arrow A in the container receptacle 40.
FIGS. 27, 28 and 30 respectively show an oblique view of the lower part of a dispenser 20 with the cover plate 21 on which the container receptacle 40 and an insert 43 according to FIGS. 20 to 22 are provided. The only difference is the transverse web 44 passing through the width, so that the container to be used here is formed without protrusions. Likewise, in comparison to the embodiment according to FIGS. 20 to 22, the stop 47 is missing.
31 and 32 show a closure 10, on which recesses 16 are provided in the narrow side surfaces 18, wherein recesses are optionally also possible in the side surfaces according to FIG. 23.
The closure 10 shown in FIGS. 31 and 32 can only be inserted into the depot 23 from above, so that the insertion from the side corresponding to FIG. 27 is dispensed with. The two other possibilities shown in FIGS. 28 and 30 are also executable with the closure 10 of FIG. 31: the closed container is inserted between the limiting webs 22 projecting from the cover plate 21 into the depot 23, to which the container receptacle 40 adjoins the projections 24 enter the recesses 16. (Fig. 32) Now the container is pushed into the container receptacle 40, the closure 10 remaining in the depot 23. If the container 1 is empty or partially filled to replace, it will be moved back into the depot 23, which is in this direction by the
Boundary web 22 locked closure 10 pushes back onto the nozzle 2 and closes the container sealing. Subsequently, the sealed container is removed.
Also in this embodiment, several possibilities for coding by a variation of the projections 24 are given in the area of the depot 23 for the closure 10. The projections 24 protrude from the edge of the container receptacle 40 and engage in the recess 16 on the side surface 18 of the closure 10. The closure 10 in turn remains in the depot 23 when the container 1 is inserted into the container receptacle 40.
33 to 36 show coding elements on the upper side 19 of the closure 10, wherein, according to FIG. 33, the recesses 16 have the shape of cylindrical depressions, optionally also holes, and according to FIG. 35 the form of cylindrical projections 26. The corresponding counterparts are provided in the bottom surface of the depot 23, that is, as shown in FIG. 34, the projections 28 shown by dashed lines are high in the form of cylindrical knobs or the like, and depressions 25, for example, cylindrical blind holes are formed in the cover 21 in FIG ,
In the depot 23 projecting projections 24, 27, 28 (webs, noses, knobs, etc.) allow to explain the manipulation security holes in the cover plate 21, which are covered by the projections 24, 27, 28. If these projections of the depot 23 are removed in order to be able to use containers 1 according to FIG. 1 without a recess 16 in the closure 10, these holes are exposed.
A space (in particular an intermediate container, a pump chamber or the like) is preferably provided at the dispenser 20 below the cover 21, into which the liquid flows out of the container 1 (FIG. 19) inserted into the container receptacle 40 and which is removed by the removal of the projection 24 is leaking.
In Figs. 29 and 32, the shutter 10 is cut parallel to the plane of the container opening 3, whereby the engagement of the projections 24 in the
Recess 16 is better visible. The sectional plane extends directly below the webs 11 of the closure 10.
The sectional planes in Figs. 34 and 36 are in the same position, and in Fig. 36, the shutter 10 is not shown.
In Figs. 28 and 30, the protrusions 24 projecting into the depot 23 are horizontally divided, leaving at the bottom of the depot 23 a second protrusion 27 which, as mentioned above, exposes a hole in the cover when it is removed.
Innsbruck, 18 December 2013

权利要求:
Claims (28)
[1]
A container having an in-plane aperture (3) and a removable closure (10) by sliding in the plane, the aperture (3) being provided on a nozzle (2) of the container, and wherein the nozzle (2 ) at least one guide element (4) is provided on or in which the closure (10) is displaceable relative to the container (1), characterized in that the closure (10) has at least one recess (16) on at least one of its outer surfaces (16). 17, 18, 19).
[2]
2. Container according to claim 1, the nozzle (2) as guide elements (4) for the closure (10) on both sides projecting webs (5), wherein the closure (10) is an approximately C-shaped profiled body, the webs ( 5) engages behind, characterized in that at least one recess (16) in at least one of the two perpendicular to the plane of the container opening (3) in the sliding direction (arrow A) of the container (1) extending side surfaces (17) of the closure (10) is.
[3]
3. A container according to claim 1 or 2, characterized in that at least one recess (16) in at least one perpendicular to the plane of the container opening (3) and perpendicular to the sliding direction (arrow A) of the container (1) extending side surface (18) of the Closure (10) is provided.
[4]
4. Container according to one of claims 1 to 3, characterized in that at least one recess (16) in a parallel to the plane of the container opening (3) extending outer surface (19) of the central part of the closure (10) is formed.
[5]
5. A container according to claim 2 or 3, characterized in that a recess (16) in the side surface (17, 18) of the closure (10) is designed as perpendicular to the plane of the container opening (3) aligned groove.
[6]
6. A container according to claim 2, characterized in that a recess (16) in the sliding direction (arrow A) of the container (1) extending side surface (17) of the closure (10) as obliquely to the plane of the container opening (3) aligned Groove is formed.
[7]
7. A container according to claim 4, characterized in that a recess (16) is formed as a recess in the outer surface (19) of the central part of the closure (10).
[8]
8. A container according to claim 7, characterized in that a plurality of wells are arranged in a grid.
[9]
9. A container according to any one of claims 1 to 3, characterized in that the closure (10) has two rotations by 180 ° recesses (16) are provided.
[10]
10. Container according to one of claims 1 to 5, characterized in that over a predetermined breaking point (8) hanging on the closure tab (9) to form the recess (16) is arranged ausbrechbar.
[11]
11 .container having an in-plane opening (3) and an in-plane removable closure (10), the opening (3) being provided on a nozzle (2) of the container, and wherein the nozzle (2) at least one guide element (4) is provided on or in which the closure (10) is displaceable relative to the container (1), in particular according to one of claims 1 to 10, characterized in that the closure (10) has at least one projection ( 26) on at least one of its outer surfaces (17, 18, 19).
[12]
12. A container according to claim 11, the nozzle (2) as guide elements (4) for the closure (10) on both sides projecting webs (5), wherein the closure (10) is an approximately C-shaped profiled body, the webs ( 5), characterized in that at least one projection (26) in at least one of the two perpendicular to the plane of the container opening (3) in the sliding direction (arrow A) of the container (1) extending side surfaces (17) of the closure (10) is.
[13]
13. A container according to claim 11 or 12, characterized in that at least one projection (26) in at least one perpendicular to the plane of the container opening (3) and perpendicular to the sliding direction (arrow A) of the container (1) extending side surface (18) of Closure (10) is provided.
[14]
14. Container according to one of claims 11 to 13, characterized in that at least one projection (26) in a parallel to the plane of the container opening (3) extending outer surface (19) of the central part of the closure (10) is formed.
[15]
15. A container according to claim 12 or 13, characterized in that a projection (26) in the side surface (17, 18) of the closure (10) is designed as perpendicular to the plane of the container opening (3) aligned web.
[16]
16. A container according to claim 12, characterized in that a projection (26) in the sliding direction (arrow A) of the container (1) extending side surface (17) of the closure (10) as obliquely to the container opening (3) aligned Footbridge is formed.
[17]
17. A container according to claim 14, characterized in that a projection (26) is formed as a knob on the outer surface (19) of the central part of the closure (10).
[18]
18. A container according to claim 17, characterized in that a plurality of knobs are arranged in a grid.
[19]
19. A container according to any one of claims 11 to 13, characterized in that the closure (10) has two projections rotated by 180 ° (26) are provided.
[20]
20. A dispensing system for a flowable product, comprising at least one with a container receptacle (40) provided dispenser and with at least one flowable product containing container (1) in particular according to one of claims 1 to 19, a removable by moving the container (1) Closure (10) and in the container receptacle (40) after removal of the closure (10) is held upside down, wherein on the closure (10) and on the container receptacle (40) similar guide elements (11,41) are provided, the one another during insertion complement or extend the sealed container, characterized in that a depot (23) for the closure (10) is formed in front of the container receptacle (40), which returns the closure (10) during insertion of the container (1) in a parking position holds.
[21]
21. Dispensing system according to claim 20, characterized in that when moving out of the container (1) from the container receptacle (40) of waiting in the parking position closure (10) again aufschiebt on the container (1).
[22]
22. Dispensing system according to claim 20 or 21, characterized in that the depot (23) is delimited on at least three sides, that the closure (10) at least one recess (16) or a projection (26) in one of its outer surfaces (17, 18, 19), and in that in the boundary surfaces of the depot (23) per recess (16) or projection (26) of the closure (10) has a matching projection (24, 28) or a matching recess (25) is formed.
[23]
23. Dispensing system according to one of claims 20 to 22, characterized in that for the insertion of the sealed container (1) in the dispenser, a substantially L-shaped path is set, whose first path section (arrow B) in the depot (23). extends perpendicular to the sliding direction (arrow A) of the container (1).
[24]
24. Dispensing system according to claim 23, characterized in that the first path section (arrow B) extends horizontally.
[25]
25. Dispensing system according to claim 23, characterized in that the first path section (arrow B) extends vertically.
[26]
26. Dispensing system according to one of claims 20 to 25, with a dispenser, wherein the container receptacle (40) on a cover plate (21) of the lower part of the dispenser (20) is provided, characterized in that the depot (23) for the closure (10) in a recess of the cover plate (21) at the end of the first path portion (arrow B) is provided.
[27]
27. Dispensing system according to claim 26, characterized in that at least one in the depot (23) projecting projection (24, 27) covers an opening in the cover plate (21).
[28]
28. Dispensing system according to one of claims 20 to 27, characterized in that for coding contributing parts of the container receptacle (40) and / or the depot (23) are provided on a replaceable insert piece (43) in the cover plate (23) the lower part of the dispenser (20) is held. Innsbruck, 18 December 2013

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EP0258885A2|1988-03-09|Condiment dispenser

DE2413742A1|1974-10-24|DEVICE FOR EMPTYING LIQUID FROM A BOTTLE

DE10331786B4|2008-12-11|Dispensers for liquid or pasty media

AT515275B1|2018-06-15|container

AT521476B1|2020-02-15|Dispenser set with a dispensing device and at least one container containing a pumpable medium

EP0241632B1|1989-10-11|Container for receiving a package containing a liquid

EP0202406A2|1986-11-26|Device for dosing fluids

DE7903111U1|1979-11-08|Lock arrangement

EP0793081A1|1997-09-03|Liquid container with dosing device

DE2443790A1|1975-05-28|DEVICE FOR DISPENSING AND MIXING LIQUID SUBSTANCES IN DOSED QUANTITIES

AT523277B1|2021-07-15|Donor

DE4342270A1|1995-06-14|Filling point for filling specific small container

AT522212A1|2020-09-15|Dispenser set with a dispensing device and at least one container containing a pumpable medium

DE3715617A1|1988-11-24|Dispensing closure cap and method for its use

DE2365528A1|1975-10-02|Disposable refill bottle for liquid soap dispensers - has neckless foil-covered top opening to prevent surreptitious refilling of refill

AT336193B|1977-04-25|DEVICE FOR THE DOSABLE DISPENSING OF LIQUID

EP2631193A1|2013-08-28|Sliding closure for a container

EP3240740A1|2017-11-08|Discharging element in the form of a capsule for discharging additives into a liquid

同族专利:

公开号 | 公开日

EP3115313B1|2018-02-14|

ME03092B|2019-01-20|

HUE037526T2|2018-09-28|

IL246304A|2021-04-29|

US11058262B2|2021-07-13|

ZA201604117B|2017-08-30|

CN105980261B|2019-04-12|

SI3115313T1|2018-05-31|

AU2014366863B2|2018-03-01|

RS57135B1|2018-07-31|

CA2934048A1|2015-06-25|

PL3115313T3|2018-07-31|

TR201806618T4|2018-06-21|

CN105980261A|2016-09-28|

ES2668954T3|2018-05-23|

HRP20180700T1|2018-06-15|

WO2015089531A2|2015-06-25|

AU2014366863A1|2016-07-07|

AT515274B1|2017-10-15|

US20160296081A1|2016-10-13|

EP3115313A1|2017-01-11|

US20200069116A1|2020-03-05|

AU2017203219B2|2018-04-19|

WO2015089531A3|2015-09-11|

AU2017203219A1|2017-06-01|

MX2016008236A|2017-01-05|

CA2934048C|2019-06-04|

US10531769B2|2020-01-14|

EA034276B1|2020-01-23|

PT3115313T|2018-05-09|

IL246304D0|2016-07-31|

EA201691296A1|2016-10-31|

EP3083440A2|2016-10-26|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US1897890A|1931-03-23|1933-02-14|Cook Ernest Harwood|Covering for container openings|

US2370997A|1943-05-10|1945-03-06|Sidney J Rudolph|Receptacle and closure means therefor|

US2436297A|1944-07-25|1948-02-17|Guarnaschelli Vincent|Bottle cap|

WO2009013173A2|2007-07-23|2009-01-29|Unilever Plc|Household liquid dispenser with keyed spout fitment and refill|

FR1107608A|1954-06-19|1956-01-04|Bottle closure device|

US4570827A|1984-03-28|1986-02-18|Essex Chemical Corp.|Liquid dispenser|

US4942432A|1989-06-28|1990-07-17|Eastman Kodak Company|Apparatus for adding toner to an electrostatographic development station|

US5475479A|1991-11-08|1995-12-12|Canon Kabushiki Kaisha|Developer cartridge having an automatic lid closing mechanism|

JP3492684B2|1992-04-24|2004-02-03|シージュニアミッテル，ジョゼフ|Lid device|

US5425404A|1993-04-20|1995-06-20|Minnesota Mining And Manufacturing Company|Gravity feed fluid dispensing system|

JP2887046B2|1993-06-25|1999-04-26|キヤノン株式会社|Toner replenishing device and toner cartridge used for it|

ES2100087T3|1993-09-28|1997-06-01|Hagleitner Betriebshygiene|PROCEDURE FOR THE MANUFACTURE OF A THERMOPLASTIC PLASTIC CONTAINER.|

US5737675A|1995-07-31|1998-04-07|Mita Industrial Co. Ltd.|Toner supply device including toner cartridge and guide|

DE29609142U1|1996-05-22|1996-08-14|Droeppelmann Thomas|Closure for cans with a crimped lid|

US6210638B1|1998-03-20|2001-04-03|Jewel Precision|Plastic sterilization case|

US6314262B1|1999-07-23|2001-11-06|Sharp Kabushiki Kaisha|Toner supply system and toner cartridge|

US6223791B1|1999-10-21|2001-05-01|3M Innovative Properties Company|Gravity feed fluid dispensing valve|

US6212721B1|2000-04-17|2001-04-10|German Borodulin|Opener and stopper for crimped and threaded bottle caps|

US6868988B2|2003-02-28|2005-03-22|Nestec S.A.|Containers of flowable substance adapted for connecting to dispensing devices of a beverage or food dispensing machine|

FR2862618B1|2003-11-24|2007-04-13|Pierre Malek|TOOL DISCHARGE TOOL STORAGE DEVICE|

US7043173B2|2004-02-27|2006-05-09|Grune Guerry L|Toner hopper engagement device, a toner container, and a toner refill kit|

AT385727T|2005-05-03|2008-03-15|Johnson Diversey Inc|SOAP DISPENSER|

EP1950148B1|2007-01-23|2009-10-14|Hans Georg Hagleitner|Containers made of a flexible sheet of material of weldable plastic|

US8657136B2|2010-03-22|2014-02-25|Wyeth Llc|Child resistant bulk dose dispensing unit|

CN201971310U|2010-12-22|2011-09-14|浙江省磐安县绿海工艺厂|Painting box with magnetic clasps|

CN202022412U|2011-03-31|2011-11-02|天津中野塑料制品有限公司|Dust-proof and damp-proof box cover|

DE102011120820B4|2011-12-13|2014-05-08|Metsä Tissue Oyj|Holding device for a container for in particular liquid products|DE102017117557A1|2017-08-02|2019-02-07|3lmed GmbH|application system|

US10759647B1|2019-04-15|2020-09-01|Plastic Technologies, Inc.|Method and device for dispensing from an inverted shippable container|

AT523277B1|2020-01-15|2021-07-15|Georg Hagleitner Hans|Donor|

法律状态:
2020-08-15| MM01| Lapse because of not paying annual fees|Effective date: 20191220 |

优先权:

申请号 | 申请日 | 专利标题

ATA975/2013A|AT515274B1|2013-12-20|2013-12-20|container|ATA975/2013A| AT515274B1|2013-12-20|2013-12-20|container|

CN201480075132.9A| CN105980261B|2013-12-20|2014-12-15|Container and distribution system|

SI201430691T| SI3115313T1|2013-12-20|2014-12-15|Dispensing system|

AU2014366863A| AU2014366863B2|2013-12-20|2014-12-15|Container and dispensing system|

TR2018/06618T| TR201806618T4|2013-12-20|2014-12-15|Dispensing system.|

MX2016008236A| MX2016008236A|2013-12-20|2014-12-15|Container and dispensing system.|

EP16182792.8A| EP3115313B1|2013-12-20|2014-12-15|Dispensing system|

PT161827928T| PT3115313T|2013-12-20|2014-12-15|Dispensing system|

ES16182792.8T| ES2668954T3|2013-12-20|2014-12-15|Dispensing system|

PCT/AT2014/000222| WO2015089531A2|2013-12-20|2014-12-15|Container|

RS20180475A| RS57135B1|2013-12-20|2014-12-15|Dispensing system|

EP14835687.6A| EP3083440A2|2013-12-20|2014-12-15|Container|

CA2934048A| CA2934048C|2013-12-20|2014-12-15|Container|

MEP-2018-114A| ME03092B|2013-12-20|2014-12-15|Dispensing system|

EA201691296A| EA034276B1|2013-12-20|2014-12-15|Container for a dispensing system|

PL16182792T| PL3115313T3|2013-12-20|2014-12-15|Dispensing system|

ZA2016/04117A| ZA201604117B|2013-12-20|2016-06-17|Container and dispensing system|

IL246304A| IL246304A|2013-12-20|2016-06-19|Container|

US15/187,143| US10531769B2|2013-12-20|2016-06-20|Container and dispensing system|

AU2017203219A| AU2017203219B2|2013-12-20|2017-05-15|Container|

US16/677,766| US11058262B2|2013-12-20|2019-11-08|Dispensing system for a flowable product|

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