drinking device

专利摘要:
Drinking device (1) with a cap (4) having a drinking opening (6) for closing a drinking container (2) which has a receiving chamber (3) for liquid, and a conveying device (7) for conveying liquid from the receiving chamber (3) in that the conveyor (7) comprises an inner wall element (8) received in an outer wall element (9) forming a gap, the space between the wall elements (8, 9) defining a conveyor channel (11) passing over an inlet opening (12) is connected to the receiving chamber (3), wherein the conveyor channel (11) is connected in an area adjacent to the closure cap (4) with an annular distribution channel (13) which communicates with the drinking opening (6) ,
公开号:AT512045A4
申请号:T50181/2012
申请日:2012-05-14
公开日:2013-05-15
发明作者:
申请人:Mam Babyartikel；
IPC主号:

专利说明:

10 2012/50181 - 1 -
The invention relates to a drinking device with a cap having a drinking opening for closing a drinking container having a receiving chamber for liquid, and a conveyor for conveying liquid from the receiving chamber, wherein the conveyor has an inner wall element in an outer wall member to form a Interspace is accommodated, wherein the intermediate space between the wall elements defines a conveying channel, which is connected via an inlet opening with the Aufnähmekämmer.
From US 7,210,596 Bl a drinking container for children is known, which has a substantially cylindrical outer vessel into which a corresponding insert is inserted. The insert has spacer elements on its outer wall, so that a cavity is formed between the insert and the outer vessel. In addition, the use of foot elements from the bottom of the outer vessel is deposited, so that liquid can flow into the cavity. At the open end of the outer vessel, a cup-shaped lid is attached, at the bottom of a plurality of openings for discharging the liquid flowing through the cavity between the outer vessel and the insert is provided. This design is designed to make it easier for children to learn to drink from a cup. However, the use of the container is relatively cumbersome because the cup-shaped lid for liquid removal over a relatively large angle must be pivoted. Another disadvantage of this embodiment is that the liquid flows after entering the cup-shaped lid substantially uncontrolled to the top discharge opening, so that a targeted liquid removal is difficult.
From US 6,755,318 B2 a different type of drinking container for dispensing a metered amount of liquid when pivoting in a drinking position is known. The drinking container has an inner part with a drinking lug, which is inserted in a central part, which in turn is accommodated in an outer part. The space between the bottom and side walls of the inner and middle part defines a chamber for receiving the metered amount of liquid. The chamber is with the liquid supply in the 2nd
Outer part connected via a narrow opening, which is arranged at sufficient pivoting above the liquid level, so that a subsequent flow of liquid is prevented in the chamber. In most cases, however, a dosage of liquid delivery when drinking is not desirable; Moreover, it is also necessary in this device to pivot the container according to the drinking from a cup in a drinking position.
In contrast, the object of the present invention is to provide a structurally simple, inexpensive to produce drinking device of the initially mentioned kind, which is improved in terms of the above disadvantages known drinking container. Accordingly, the user of the drinking device should in particular be enabled to precisely control the liquid transport between the receiving chamber and the drinking opening while drinking.
This is achieved in the drinking device of the type mentioned above in that the delivery channel is connected in a region adjacent to the closure cap region with an annular distribution channel which communicates with the drinking opening.
In use of the drinking device, the liquid flows from the receiving chamber into the conveying channel between the wall elements and subsequently into the annular distribution channel, which defines a circumferential cavity for distributing the inflowing liquid, which is connected to the drinking opening. The annular distribution channel is advantageously connected over its entire circumference with the delivery channel, so that a uniform inflow of liquid can be achieved. The drinking device allows a precise, well controlled steering of the liquid flow between the receiving chamber and the drinking opening, where the desired amount of liquid is reliably provided. The annular distribution channel ensures that the drinking opening is evenly supplied with liquid when drinking. In addition, for a variety of drinking positions a liquid removal take place, so that the ease of use of the drinking device is significantly increased 3. For this purpose, it is particularly advantageous if the intermediate space between the outer wall element and the inner wall element is designed as a gap such that when a suction pressure is applied to the drinking opening, liquid flows against the force of gravity through the conveying channel into the annular distribution channel. Thus, the drinking device can be used like a conventional drinking straw. This embodiment has the advantage that the drinking device can be used independently of the position of the drinking container, ie also in a vertical or non-pivoted position. Thus, a variable usable drinking device is created with great user comfort, which is also characterized by a well-controlled fluid removal. By the drinking opening is arranged in the cap, further unwanted spilling of liquid is largely avoided.
For uniform distribution of the liquid in the annular distribution channel, it is advantageous if the extension plane of the distribution channel is arranged substantially parallel to a lower contact surface of the drinking container. As a result, a uniform distribution of the liquid flow is ensured when the drinking container is arranged in a substantially upright or unverschwenkten position.
In order to form the annular distribution channel in the region adjacent to the closure cap, it is advantageous if the annular distribution channel is formed by a peripheral recess which is delimited at least by closure-side end regions of the wall elements of the delivery device; In addition, the distribution channel may be delimited at the top by a seal, in particular a silicone seal, provided on the inner surface of the closure cap.
To connect the annular distribution channel in a structurally simple manner to the conveying channel of the conveyor, it is advantageous if the outer wall element of the conveyor in the closure-side end region has a circumferential flange with a particular open to the inner surface of the closure cap recess. The circumferential flange thus extends radially outwardly from the outer wall element of the conveyor 4. The annular distribution channel therefore expediently has a greater width or radial extent than the delivery channel between the outer and the inner wall element. For limiting the annular distribution channel radially outward, a circumferential projection extending in the longitudinal direction of the flange is preferably provided. To limit the annular distribution channel radially inward, a continuation of the inner wall element in the axial direction is preferably provided.
For uniform delivery of liquid from the receiving chamber, it is advantageous if the wall elements are rotationally symmetrical with respect to their longitudinal axes. In a preferred embodiment, the longitudinal axis of the outer wall member substantially coincides with the longitudinal axis of the inner wall member. As a result, a conveying channel is achieved with substantially constant width in the circumferential direction of the conveying channel; Preferably, the conveyor channel also has a substantially constant width over its entire length between the inlet opening and the annular distribution channel.
In a preferred embodiment, it is provided that the wall elements have a substantially conical shape tapering from closure-side end regions to bottom-side end regions. Alternatively, a substantially cylindrical shape of the wall elements may be provided.
In order to reliably convey liquid into the conveying channel between the wall elements in an arbitrarily inclined position of the drinking container, it is advantageous if the inlet opening is arranged circumferentially between bottom end regions of the wall elements of the conveying device. By the inlet opening extending between bottom end portions of the wall elements, a nearly complete emptying of the receiving chamber is made possible by means of the conveyor; the circumferential inlet opening also ensures that liquid can flow into the conveying channel regardless of the position of the drinking container during the drinking process. 5
In order to be able to empty the Aufnähmekämmer the drinking container with the drinking device substantially completely, it is advantageous if the opening into the delivery channel inlet opening adjacent to a bottom of the drinking container.
In order to prevent the leakage of liquid from the drinking container, it is advantageous if the drinking opening has a valve, in particular a slit membrane opening under a suction pressure.
In order to reliably achieve a liquid-tight connection between the drinking container and the closure flap, it is favorable if a sealing element is arranged in the state fastened to the drinking container of the closure cap between the drinking container and the closure cap.
In order to avoid the formation of an unintentionally high negative pressure in the drinking container, it is advantageous if the closure cap has an air inlet opening. In order to allow only an air inlet through the air inlet opening, however, to avoid unwanted liquid leakage, it is advantageous if the formation of a ventilation valve of the air inlet opening is associated with a sealing flap. The sealing flap can in this case be provided in particular only in the region of the air inlet opening, so that a material-saving, cost-effective design is achieved. Alternatively, instead of the only locally formed sealing flap, a circumferential sealing lip may also be provided.
Furthermore, it is favorable for an easy-to-use fluid removal when the closure cap is connected to a preferably hemispherical mouthpiece which has the drinking opening. It is further advantageous if the mouthpiece made of an elastic material, preferably silicone. With regard to a small number and thus cost-effective configuration, it is advantageous if the mouthpiece is formed integrally with the sealing element.
Provided that with the cap a rotatably mounted, at least one recess having, cooperating with the mouthpiece 6th
Cover is connected, the cover can be positioned in a drinking position such that the elastic mouthpiece protrudes through the recess. On the other hand, upon rotation of the cover, the mouthpiece can also be arranged in a storage position between the cover and the closure cap.
In a particularly preferred embodiment of the invention, it is provided that an outer wall of the drinking container is provided as the outer wall element of the conveyor. Accordingly, the drinking device is integrated in this embodiment in the drinking container. The inner wall element is expediently made thin-walled, so that the arrangement of the conveyor in the drinking container reduces the Aufnähmevolumen the receiving chamber only slightly. The space between the outer wall and the inner wall element is at least partially filled with air in use, so that a very good thermal insulation of the liquid stored in the receiving chamber is achieved. For this purpose, it is advantageous if the intermediate space between the outer wall and the inner wall element is designed as a narrow gap, so that the stored liquid of the drinking container only slightly penetrates into the conveying channel. Accordingly, the delivery channel is at least partially filled with air in view of a good insulating effect of the drinking device; For liquid removal from the receiving chamber, a suction pressure can be applied to the drinking opening, which causes an inflow of liquid into the conveying channel while displacing the air contained therein.
For filling or refilling the drinking container, it is advantageous if the outer wall of the drinking container connecting means, in particular a thread, for releasable connection with corresponding connection means of the closure cap.
If the annular distribution channel is formed on closure-side end regions of the wall elements integrated in the drinking container, this embodiment can also provide the advantage that the liquid-conducting connection between the drinking opening and the annular distribution channel is independent of the relative position of the releasable connection means. 7
In an alternative preferred embodiment, it is provided that the closure cap and the conveyor form a one-part part for a separate drinking container. In a use position the drinking device is attached to the drinking container; the drinking container thus forms no part of the drinking device in this embodiment. The drinking container therefore has at least one of the wall elements of the drinking device geson-changed outer wall, which includes the Aufnahmekam mer with a bottom portion.
In order to gebrin the drinking device to the separate drinking container, it is advantageous if the insert has connecting means for releasable connection with the separate drinking container. The closure cap of the insert preferably has a hood-shaped connecting element in the form of a cap which fits to the closure-side end region of the separate drinking container and expediently carries a thread.
To achieve a conveyor in the manner of a drinking straw, it is advantageous if the insert has an elongated, half-like conveyor, which preferably protrudes in use centrally in the receiving chamber of the separate drinking container. In order to be able to absorb liquid inside the conveyor, it is advantageous if the inner wall element encloses a cavity.
The invention will be explained below with reference to preferred embodiments illustrated in the figures, to which, however, it should not be restricted.
In detail, in the drawing:
1 shows a longitudinal section of a drinking container with a drinking device according to a first embodiment of the invention.
1a shows a longitudinal section of a drinking container with a drinking device according to a second embodiment;
2 is a perspective view of the 8 shown in Fig. 1
Drinking container;
FIG. 3 is a plan view of the drinking container shown in FIGS. 1 and 2; FIG.
4 is a sectional view of a drinking device, which is designed according to a second embodiment as an insert for a separate drinking container.
5 is a sectional view of a drinking container with a drinking device inserted therein according to FIG. 4;
FIG. 6 is a side view of the drinking device shown in FIG. 4; FIG. and
7 and FIG. 8 are each a perspective view of the drinking device shown in FIGS. 4 and 6.
In Fig. 1, a first embodiment of a drinking device 1 for a drinking container 2 is shown, which includes a receiving chamber 3 for liquid. The drinking device 1 has a removable closure cap 4 with a mouth piece 5, which has a drinking opening 6. In addition, a conveyor 7 is provided, which is adapted to convey liquid from the receiving chamber 3 into the drinking opening 6. The conveyor 7 has an inner wall element 8, which is arranged within an outer wall element 9. In the embodiment shown in FIGS. 1 to 3, the outer wall element 9 is formed by an outer wall 9 'of the drinking container 2, which defines the receiving chambers 3 with a base 9' f integral with the outer wall 9 '. The inner wall element 8 is held over the closure cap 4 in the outer wall element 8.
The conveyor 7 and the cap 4 are suitably made of a hard plastic material.
As can be seen from Fig. 1 (see also Fig. 5) further, the wall elements 8, 9 with respect to a common longitudinal axis 10, which simultaneously represents the longitudinal axis of the drinking container 2, formed rotationally symmetrical. In the exemplary embodiment shown, the wall elements 8, 9 have a substantially 9 conical shape tapering from closure-side end regions to bottom-side end regions.
As further seen in Fig. 1, the wall elements 8, 9 of the conveyor 7 enclose a gap defining a conveyor channel 11 for transporting liquid.
The delivery channel 11 extends with a constant width over the entire length of the wall elements 8, 9, so that a uniform flow with liquid is ensured. The conveying channel 11 is connected to the receiving chamber 3 via an inlet opening 12 adjoining the bottom 9 '' of the drinking container 2.
The conveying channel 11 between the wall elements 8, 9 is designed as a narrow gap with a width of about 0.3 to 0.5 mm, which is normally filled with air, so that the liquid contained in the receiving chamber 3 is thermally insulated. Thus, a drinking container 2 is provided, which is particularly well suited to the temperature of a comb in the recording r 3 contained beverage, i. especially a hot or cold drink, to preserve. Upon application of a negative pressure on the mouthpiece 5 liquid flows from the receiving chamber 3 via the inlet opening 12 into the conveying channel 11, wherein the air normally contained in the conveying channel 11 is displaced. Thus, in the drinking container 2 by means of the conveyor 7 liquid in the manner of a drinking straw from the receiving chamber 3 to the drinking opening 6 of the mouthpiece 5 are sucked. In order to avoid unwanted liquid leakage, the drinking opening 6, a valve 6 'on. Conveniently, a flexible slit membrane is provided as a valve, which closes the drinking opening 6 at atmospheric pressure, but forms an opening under application of a suction pressure, so that liquid can flow through.
As can further be seen from FIG. 1, the delivery channel 11 is connected in a region adjoining the closure cap 4 with an annular distribution channel 13, which communicates with the drinking opening 6 formed in the mouthpiece 5. When a suction pressure is applied to the mouthpiece 5, the liquid guided in the longitudinal direction through the delivery channel 11 flows via a circumferential passage opening into the annular distribution channel 13, which thus extends over its entire circumference from the - 10 - 10 - 10 -
Delivery channel 11 is supplied with liquid. The extension plane of the distribution channel 13 is arranged substantially parallel to a lower contact surface 2 'of the drinking container 2, so that in a horizontal position of the drinking container 2, a uniform liquid inflow into the annular distribution channel 13 takes place. In order to form the annular distribution channel 13, in the closure-side end regions of the wall elements 8, 9 there is provided a circumferential projecting flange 13 'with a depression or recess 14 through which the distribution channel 13 is formed. The distribution channel 13 is bounded radially outwardly by the circumferential, arranged in the longitudinal direction of the drinking container 2 projection or flange 15; to limit the distribution channel 13 radially inward, a continuation of the inner wall element 8 is provided.
As can be further seen from FIG. 1, the closure cap 4 is detachably fastened to the drinking container 2 by means of a threaded connection 16. The outer wall 9 'of the drinking container 2 has a thread which is in engagement with a corresponding thread of the closure cap 4. Of course, the cap 4 can also be connected via a snap connection or the like with the drinking container 2.
Between the cap 4 and the drinking container 2, a seal 17 is arranged, so that an unwanted liquid leakage through the thread 16 is prevented. With the seal 17, a circumferential sealing lip 18 is also integrally formed, which bears against the cap 4 under prestress; By this means, a ventilation valve 19 is formed, via which a controlled air inlet in the direction of the arrow 20 'can take place via an air inlet opening 20 provided in the closure cap 4 into the receiving chamber 3. The vent valve 19 is in this case designed with respect to the drinking valve 6 'such that after discontinuation of a suction pressure for drinking a small negative pressure remains, so that liquid is sucked back into the drinking container 2.
With the seal 17 further the mouthpiece 5 is integrally formed, which is therefore elastically deformable. With the aid of a rotatably mounted on the cap 4 cover 21,
11 which has a recess 22, the mouthpiece 5 can therefore be positioned either in the drinking position shown in Fig. 1 or - if the cover 21 is arranged such that the recess 22 is not disposed in the region of the mouthpiece 5 - in a depressed Deposit position between the cap 4 and the cover 21st
In Fig. La, an alternative embodiment of the vent valve 19 is shown. Here, a circumferential sealing lip is not provided as in the embodiment of FIG. 1. The cap 4 is connected via the seal 17 is substantially airtight with the drinking container 2. In the region of the mouthpiece 5, however, the closure cap 4 has an air inlet opening 20, so that air can enter the receiving chamber 3 in the direction of the arrow 20 '. The air inlet is controlled by a - provided only in the air inlet opening 20 - sealing flap 18 ', which is integral with the sealing element 17 and the mouthpiece 5 and biased against the cap 4 and thus the air inlet opening 20 at the same pressure level within and closes outside the receiving chamber 3. If a certain negative pressure in the receiving chamber 3 due to the application of a suction pressure on the mouthpiece 5 occurs, lifts the sealing flap 18 'from the cap 4 and thus releases an air inlet through the air inlet opening 20 for the purpose of pressure equalization. It is advantageous in this embodiment of the vent valve 19 in particular that due to the only provided in the region of the air inlet opening 20 sealing flap 18 'a significant material savings compared to the circumferential sealing lip 18 shown in Fig. 1 can be achieved.
FIGS. 4 to 8 show an alternative embodiment of the drinking device 1, which is designed as an insert part 1 'for a separate drinking container 2. The insert 1 'has an elongate conveyor 7 in the manner of a drinking straw, which is arranged centrally in the Aufnähmekämmer 3 of the separate drinking container 2 in a use position shown in Fig. 5. In this embodiment, separate wall elements 8, 9 are provided by the outer wall 9 'of the container 2, said wall elements being provided by an end region attached to the closure cap 4.
10 2012/5018! - 12 - are formed tapered funnel-shaped in its opposite free end region. The insert 1 'is suitably dimensioned so that the wall elements 8, 9 protrude in the use position to a bottom portion of the matching drinking container 2'. In the embodiment shown, an inwardly curved bottom portion is provided. The inner wall element 8 encloses a central cavity 8 ', so that liquid can also be accommodated in this cavity 8'.
As can be seen from FIGS. 4, 5, the delivery channel 11 between the wall elements 8, 9 and the annular distribution channel 13 adjoining the delivery channel 11 in the region of the closure cap 4 are designed essentially in accordance with the exemplary embodiment explained with reference to FIGS that reference may be made to the above explanations. In this case, an angled end portion of the outer wall member 9 is provided, which has the circumferential flange 13 'and the projection 15 for limiting the annular, in the form of a recess 14 formed distribution channel 13 radially outward.
Also in this embodiment, a vent valve 19 is provided, which cooperates with the drinking valve 6 'such that upon discontinuation of a suction pressure a suppression in the drinking container 2 remains. The controlled air inlet in the direction of arrow 20 'via the air inlet opening 20 to which a sealing membrane 18' 'in the closed state of the vent valve 19 is applied; the sealing membrane 18 '' is in this case formed integrally with the seal 17. When a suction pressure is applied, the sealing membrane 18 "lifts off and air flows in the direction of arrow 20 'via a further air inlet opening 21 in the seal 17 and the outer wall element 9 into the receiving chamber 3.
As can be further seen from Fig. 4, 5, the insert part 1 'on a hood-shaped connecting element 23, which is connectable to a container neck 24 of the separate wall element 9'; In FIGS. 6 to 8, the drinking device 1 is shown without the connecting element 23 for the sake of clarity. For releasable connection of the insert part 1 'with the separate drinking container 2, the hood-shaped connecting element 23 has an internal thread 23', which cooperates in the position of use with a 13 on the container neck 24 arranged external thread 24 '.

权利要求:
Claims (20)
[1]


1. Drinking device (1) with a cap (4) having a drinking opening (6) for closing a drinking container (2), which has a receiving chamber (3) for liquid, and a conveying device (2). 7) for conveying liquid from the Aufnähmekammer (3), wherein the conveyor (7) has an inner wall member (Θ) which is received in an outer wall member (9) to form a gap, wherein the space between the wall elements (8 , 9) a delivery channel (11) defined, which is connected via an inlet opening (12) with the receiving chamber (3), characterized in that the conveying channel (11) in an adjacent to the closure cap (4) region with an annular distribution channel (11 13) which communicates with the drinking opening (6).
[2]
2. Drinking device according to claim 1, characterized in that the extension plane of the distribution channel (13) is arranged substantially parallel to a lower footprint surface (2 ') of the drinking container (2).
[3]
3. Drinking device according to claim 1 or 2, characterized in that the annular distribution channel (13) by a circumferential recess or recess (14) is formed, which is delimited by the closure-side end portions of the wall elements (8, 9) of the conveyor (7) ,
[4]
4. Drinking device according to claim 3, characterized in that the outer wall element (9) of the conveyor (7) in the closure-side end region has a circumferential flange (15) with a particular to the closure cap (4) open towards recess (14).
[5]
5. Drinking device according to one of claims 1 to 4, characterized in that the wall elements (8, 9) with respect to their longitudinal axes (10) are rotationally symmetrical.
[6]
6. Drinking device according to claim 5, characterized in that the wall elements (8, 9) is a substantially conical, itself

- 15 - have from tapered end portions to bottom end portions tapered shape.
[7]
7. Drinking device according to one of claims 1 to 6, characterized in that in the conveying channel (11) opening into the inlet opening (12) adjacent to a bottom (9fI) of the drinking container (2).
[8]
8. Drinking device according to one of claims 1 to 7, characterized in that the drinking opening (6) has a valve, in particular a slit membrane opening under a suction pressure.
[9]
9. Drinking device according to one of claims 1 to 8, characterized in that in the drinking container (2) fixed state of the closure cap (4) between the drinking container (2) and the closure cap (4), a sealing element (17) is arranged.
[10]
10. Drinking device according to one of claims 1 to 9, characterized in that the closure cap (4) has an air inlet opening (20).
[11]
11. Drinking device according to claim 10, characterized in that for the formation of a ventilation valve (19) of the air inlet opening (20) is associated with a sealing flap (18 ').
[12]
12. Drinking device according to one of claims 1 to 11, characterized in that with the closure cap (4) a preferably hemi-shaped mouthpiece (5) is connected, which has the drinking opening (6).
[13]
13. Drinking device according to claim 12, characterized in that the mouthpiece (5) consists of an elastic material, preferably silicone, and is preferably formed integrally with the sealing element (17).
[14]
14. Drinking device according to one of claims 11 to 13, characterized in that with the closure cap (4) has a rotatably mounted, at least one recess (22) having, with the mouthpiece (5) cooperating cover (21) is connected.



10 2012/50181 - 16 -
[15]
15. Drinking device according to one of claims 1 to 14, characterized in that as outer wall element (9) of the conveyor (7) an outer wall (9 ') of the drinking container (2) is provided.
[16]
16. Drinking device according to claim 15, characterized in that the outer wall (9 ') of the drinking container (2) connecting means, in particular a thread (16), for releasable connection with corresponding connecting means of the closure cap.
[17]
17. Drinking device according to one of claims 1 to 14, characterized in that the closure cap (4) and the conveyor (7) form an insert part (1 ') for a separate drinking container (2).
[18]
18. Drinking device according to claim 17, characterized in that the insert part {11) has connecting means for detachable connection to the separate drinking container (2).
[19]
19. Drinking device according to claim 17 or 18, characterized in that the insert part (lf) an elongated, half-like conveyor (7), which preferably in use centrally in the receiving chamber (3) of the separate drinking container (2) protrudes.
[20]
20. Drinking device according to one of claims 17 to 19, characterized in that the air inlet opening (20) via a connecting channel with the receiving chamber (3) outside the halm-like conveyor (7) is in communication.

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同族专利:

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公开号 | 公开日

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PL2849613T3|2019-10-31|

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EP2849613A1|2015-03-25|

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CN104394739A|2015-03-04|

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BR112014028393A2|2017-06-27|

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AT512045B1|2013-05-15|

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WO2013170286A1|2013-11-21|

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US10064505B2|2018-09-04|

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IL235698D0|2015-01-29|

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IL235698A|2020-06-30|

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ES2738538T3|2020-01-23|

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CN104394739B|2017-03-08|

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EP2849613B1|2019-04-24|

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US20150157151A1|2015-06-11|

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA50181/2012A|AT512045B1|2012-05-14|2012-05-14|drinking device|ATA50181/2012A| AT512045B1|2012-05-14|2012-05-14|drinking device|

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EP13728930.2A| EP2849613B1|2012-05-14|2013-05-14|Drinking device with a conveying means|

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PL13728930T| PL2849613T3|2012-05-14|2013-05-14|Drinking device with a conveying means|

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PCT/AT2013/050108| WO2013170286A1|2012-05-14|2013-05-14|Drinking device with a conveying means|

---

ES13728930T| ES2738538T3|2012-05-14|2013-05-14|Drinking device with a transport system|

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BR112014028393-1A| BR112014028393B1|2012-05-14|2013-05-14|DRINKING DEVICE|

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US14/401,342| US10064505B2|2012-05-14|2013-05-14|Drinking device with a conveying means|

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CN201380033260.2A| CN104394739B|2012-05-14|2013-05-14|Drinking device with conveyer device|

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IL235698A| IL235698A|2012-05-14|2014-11-13|Drinking device with a conveying means|