EP2917132B1 - Attachment for a liquid container - Google Patents

Description

The invention relates to an attachment for a liquid container.

As a liquid container in particular beverage cans are addressed in the invention, without excluding other vessels such as canisters or bottles. In particular, to produce mixed drinks, essays are known, which are placed on beverage cans. The beverage cans have a protruding over the side wall edge, which encloses the lid. Known attachments are attached to this beverage can by clips on the edge of an open beverage can as well as in the DE 20 2008 008 018 U1 or the GB2 259 241 A disclosed. The liquid container has an outlet, which is usually arranged in the lid. The outlet is usually closed after filling; The closure is preferably captively attached to the container, eg as a riveted tab. The DE 20 2005 001 115 U1 shows an alternative solution for a cap to be mounted on liquid containers.

The attachment must be fixed in a liquid-tight manner to the container and the liquid-tight connection must be able to withstand the emptying of the container and, if necessary, the drinking out of the liquid container, without becoming leaky. The preparation of this liquid-tight connection is problematic.

It is an object of the invention to provide an attachment for a liquid container that produces a liquid-tight connection in all operating positions.

The invention relates to an attachment with the features of claim 1.

• eine Anlagefläche zum abdichtenden Anliegen an den Flüssigkeitsbehälter, die eine Anlageebene definiert
• ein Reservoir für eine zweite Flüssigkeit,
• einen Kanal, der den Behälter-Auslass mit einem Auslass des Aufsatzes verbindet, sowie
• einen Durchlass auf, der das Reservoir mit dem Kanal verbindet. Dieser Aufsatz ist nach der Erfindung dadurch gekennzeichnet, dass der Aufsatz mit einem Spannhebel ausgestattet ist, der sich in der Gebrauchslage durch die Anlageebene und den Behälter-Auslass hindurch erstreckt und der zum Anliegen an einer Innenseite des Flüssigkeitsbehälters bestimmt ist.

The attachment according to the invention is intended for a liquid container for a first liquid with a container outlet which is surrounded by a container wall. The essay points

• a contact surface for sealing engagement with the liquid container, which defines an abutment plane
• a reservoir for a second liquid,
• a channel connecting the container outlet to an outlet of the attachment, as well as
• a passage connecting the reservoir to the channel. This attachment is according to the invention characterized in that the attachment is equipped with a clamping lever which extends in the position of use through the abutment plane and the container outlet and which is intended to rest on an inner side of the liquid container.

The attachment is intended for liquid containers. Without excluding other liquid containers, the article according to the invention is explained in more detail below using the example of a beverage can. Like other liquid containers, beverage cans have a container wall, each shaped as a bottom, a bottom upwardly extending cylindrical side wall and lid provided with a container outlet for the first liquid contained in the beverage can. The outlet is bounded by the container wall, which is arranged in a plane with the container outlet. From the liquid container, the first liquid contained therein can be removed through the outlet, for example by pouring or by drinking. The removal of the first liquid from the liquid container through the container outlet is the intended use of the liquid container or beverage can. The container outlet is usually closed after filling. The closure is preferably captive attached to the liquid container, for. B. as riveted tab with opening lever.

The attachment according to the invention has a contact surface. The contact surface is in the position of use, that is, attached to the liquid container essay on the container wall. In addition, the contact surface sealingly encloses the outlet of the container. The contact surface is arbitrarily shaped. It is preferably designed as a narrow, circumferential surface. It can preferably be described as the edge of the essay. The contact surface can simulate the shape of the outlet in their dimensions or they can be sized to maintain a further distance from the outlet to fit outlets of different shapes or sizes.

The contact surface is intended to abut against the container wall and to act sealing. It defines an asset level. The abutment surface is not designed to be connected to the liquid container by forces acting parallel to the plane of the outlet on the container wall. The contact surface is in particular not designed to be connected to the container wall by clamping or locking. The plane of the outlet and the plant level are approximately parallel to each other in the position of use.

According to a further preferred embodiment, the contact surface is provided with a sealing material. The sealing material is preferably elastic and compensates for unevenness of the container wall, without losing the sealing effect of the contact surface. As a sealing material elastic materials are preferably used. These include in particular rubber, latex and elastic plastics.

The attachment has a reservoir which is intended to receive a second liquid. The reservoir is enclosed by the material of the attachment and thus delimited from the environment. The reservoir can be shaped as desired. The reservoir may have any volume; Preferably, however, the volume of the reservoir is less than the volume of the liquid container on which the attachment is placed. The ratio of the volume from the reservoir of the attachment to the volume of the liquid container is preferably from 1: 5 to 1: 100, preferably from 1:10 to 1:50.

The attachment has a channel which establishes a connection between the container outlet of the liquid container and an outlet of the attachment. The channel thus establishes a conduit or flow connection through the attachment. The channel is arranged within the contact surface. The inlet opening of the channel facing the container outlet does not have to lie directly against the container outlet. Usually, a space is created between the container outlet and the inlet opening of the channel. The first liquid flows essentially lossless from the container into the channel of the essay through the space formed between the container, the abutment surface and the entrance opening of the channel.

The channel has an outlet at the end opposite the inlet opening. Preferably, the outlet is ergonomically shaped, for example as a spout or as a drinking opening. The channel may have any cross-section, z. B. to better meet requirements of the design of the essay. Inlet opening and outlet may have different cross sections, also to ensure the fastest possible emptying of the liquid container or to ensure the most compact design of the essay. The channel connects inlet port and outlet and may for this purpose have a variable cross-section, tapered or flared cross section, e.g. B. to optimize the flow conditions when removing the first liquid or the first and the second liquid.

Channel and reservoir of the essay are largely separate from each other. Only one passage is provided between reservoir and channel through which the second liquid passes from the reservoir into the channel. The passage is preferably arranged closer to the outlet between the inlet opening and the outlet of the channel. He is in horizontal alignment of the essay, wherein the outlet is arranged above the inlet opening of the channel, preferably above the level of the second liquid in the reservoir. The passage is preferably closable to prevent uncontrolled leakage of the second liquid. The closure of the passage is advantageously produced as an adhesive film made of plastic, metal, liquid-tight paper or a composite material.

The passage is preferably dimensioned so that the liquid container and the reservoir simultaneously emptying during emptying in equal parts, so that a constant mixing ratio of the first and second liquid is achieved. The passage of the attachment is advantageous to the container outlet in a size ratio of 1:10 to 1: 200, more preferably from 1:20 to 1: 100.

An essential feature of the invention is that the attachment is equipped with a clamping lever which extends in the position of use through the contact plane and the container outlet and has a in the use position of the inside of the liquid container facing the pressure surface. The cocking lever may be shaped as a lever, tongue or strap or otherwise.

Unlike in the case of known attachments for liquid containers, therefore, the attachment is not fixed by attachment to the edge of the cover in which the container outlet is arranged. According to the invention causes the clamping lever, which passes through the system level and the container outlet and comes with the pressure surface on the inside of the liquid container for conditioning, fixing the attachment to the liquid container. According to the invention the clamping lever with its pressure surface on the inside of the lid.

The sealing between the attachment and the liquid container is achieved by fixing the container wall, which surrounds the container outlet, by means of the clamping lever, which defines the container wall between clamping lever and contact surface. In this case, at least one component from the group comprising the container wall, the clamping lever and the contact surface, formed elastically. Preferably, two or three components of the aforementioned group are elastically formed. By the combination of elastic and rigid components or elastic components alone, it is possible to attach the attachment by means of the clamping lever advantageous by clamping, detents or clamps on the liquid container, without using the edge of the container for the construction of the compound.

The prerequisite for this is that the pressure surface, which preferably acts within the contact surface on the inside of the container wall (usually the lid) is arranged at a suitable distance from the contact surface. Accordingly, the clamping lever is dimensioned according to the distance to the contact surface and possibly inclination of the pressure surface so that the clamping lever is inserted when placed on the liquid container through the container outlet and pushed under the adjacent to the container outlet container wall until the contact surface on the outside the container wall rests. In this case, a force is built up, which leads to a preferred embodiment for deforming the seal, which is applied to the contact surface. The seal - and thus the tower now lies sealingly against the liquid container. Based on the radius of the contact surface, the pressure surface is arranged in the center of the contact surface or in a range of up to 2/3 of the radius around the center of the contact surface, preferably of up to 1/3 of the radius around the center.

According to an alternative embodiment, the container wall or parts of the container wall, for. B. the captive tab of a closure for a container outlet, be elastic. The container wall, typically the lid of a container, or the parts of the container wall can then exert a force against the attachment or the clamping lever after the introduction of the clamping lever, which alone ensures a sealing abutment of the contact surface on the container wall or in addition to the effective concern of the contact surface or the seal contributes. Alternatively or in addition to deforming the seal so the lid or the tab of the closure of the liquid container is deformed by the clamping lever so that it rests sealingly against the contact surface or seal of the essay.

According to a further alternative, the tensioning lever can be designed to be elastic. This is advantageous if the container wall is rigid around the container outlet and an elastic, z. B. designed in the manner of a spring tensioning lever builds a force that contributes to the sealing concerns of the contact surface or the seal on the container wall.

Since the attachment is to be advantageous for containers of different dimensions, an arrangement for fastening is particularly suitable which comprises a clamping lever and a contact surface and which ensures by means of forces acting perpendicular to the plane defined by the contact surface, fixing the attachment to the liquid container. The setting of the container wall between clamping lever and contact surface causes a simpler sealing of the attachment to the liquid container as a fastening, which attaches by a bracing on the edge of the container lid. The article of the invention can in this way without design changes for z. As cans are used with small and large cross-section, which have corresponding lid with small or large diameter.

At the same time, the attachment according to the invention reduces the space between the reservoir and the lid of the liquid container because the contact surface of the attachment according to the invention has a smaller diameter than known attachments, which extend beyond the edge of the container. As a result, a simpler and more complete emptying of the container is better ensured. In addition, material is saved, because the attachment according to the invention can be produced overall with smaller dimensions.

The clamping lever is attached to the attachment. It is usually elongated and angled and extends from the attachment towards or through the plant level. A first portion of the clamping lever extends, with respect to the plant level, at a steep inclination of the attachment in the direction of the abutment plane, a second section, which adjoins the first section, extends in a flat inclination to the abutment plane. The slope of the first section, based on the plant level, about 60 ° to 90 °, with 90 °, ie the maximum slope, are preferred. The slope of the second section is 15 ° to 60 °, preferably 25 ° to 45 ° relative to the plant level. The specified inclination refers to the central axis of the first or second portion of the clamping lever, since the top and bottom of the clamping lever may have different inclinations. The second section ends freely, preferably in the center of the plant level or in a half radius around the center of the plant level. The first and second sections may merge in discrete steps or continuously. The second section carries the pressure surface. It is usually mounted on the essay facing side of the clamping lever.

The clamping lever can be easily inserted by the arranged in a flat inclination second portion when attaching the essay through the container outlet under the container wall and the required distance between clamping lever or pressure surface and contact surface can be easily adjusted.

A particularly advantageous embodiment of the invention provides that the top and bottom of the clamping lever are not parallel. The shape of top and bottom significantly affect the simple and safe attachment of the attachment to the container. At the same time, by adjusting the thickness of the clamping lever, So determined by the distance between the top and bottom, the elasticity and stability of the clamping lever.

Further advantageous is an embodiment of the clamping lever, in which the second portion has surfaces with different pitch on its upper side. It is preferred if the second section extends from the free end of the clamping lever in the direction of the first section, a guide surface having a steeper slope than an immediately adjacent pressure surface, extending from the first section in the direction of the free end of the clamping lever extends. The baffle, which has a pitch of 20 ° to 70 °, is steep to ensure easy insertion of the cocking lever through the outlet to the vessel wall. The subsequent pressure surface is designed with a shallower inclination, in order with different containers with z. B. differently shaped lids or with different wall thicknesses to achieve a secure fixation of the essay. The pressure surface may be formed parallel or with a different inclination than the underside of the clamping lever. The pressure surface can also be rounded. The variable design of the pressure surface, ie parallel to the plant level, inclined or rounded, allows the optimal attachment of the attachment to the liquid container.

Advantageously, the clamping lever is designed as a lever, as a tab or as a spring. The clamping lever can be designed as a solid or hollow body. It can be made of plastic, metal or other materials that have the required strength or elasticity properties. The dimensions of the clamping lever are limited on the one hand by the dimensions of the container outlet through which the clamping lever is to pass when placing the container. On the other hand, they are dictated by the requirements of strength and elasticity. Within the scope of these specifications, the material of the clamping lever and its shape is freely selectable.

The article is arranged according to the invention within the edge of the liquid container. In this case, the contact surface rests on the container wall or the lid of the container. At the transition from the lid to the edge of the container usually a channel is arranged. If the contact surface with attached attachment in the region of the channel, the article-related to the lid of the container- in this situation closer to Lid offset, the offset is determined by the depth of the channel. It is obvious that this offset affects or eliminates the tightness, which is a prerequisite for the functioning of the essay, which is achieved by maintaining the distances between contact surface or seal, container wall and clamping lever.

According to a preferred embodiment of the invention, abutments are provided on the attachment within the abutment surface extending from the container, usually from a bottom of the reservoir, into the abutment plane or beyond the abutment plane. It may be provided a single abutment or a plurality of abutments. They are arranged within the contact surface, ie where the lid has the height required for the sealing fixing of the attachment, which is adapted to the contact surface or seal and the clamping lever. The abutments can be cuboid, cylindrical, conical or shaped as a pyramid or as a truncated cone or truncated pyramid. If there is no seal, the abutment ends in the plant level. If a seal is present, then the seal should usually be compressed when attached to the liquid container essay in order to achieve optimum sealing effect. In this case, the abutment preferably extends beyond the abutment plane into a plane which ensures the desired compression of the seal.

• Fig. 1 einen Schnitt durch den erfindungsgemäßen Aufsatz (Sicht von der Seite)
• Fig. 2 einen Schnitt durch den erfindungsgemäßen Aufsatz (Sicht von unten)
• Fig. 3 Ansicht des erfindungsgemäßen Aufsatzes von unten

Details of the invention are explained below with reference to figures. Show it:

• Fig. 1 a section through the attachment according to the invention (view from the side)
• Fig. 2 a section through the attachment according to the invention (view from below)
• Fig. 3 View of the article of the invention from below

Fig. 1 and Fig. 2 show an embodiment of the article 1 according to the invention, which is made by injection molding of plastic. The attachment is intended for attachment to a liquid container (not shown) containing a first liquid. In the present case, it is a beverage can. This first liquid is withdrawn through a container outlet. The container outlet is arbitrarily shaped, for example round, oval or angular and it is often different in size at different otherwise equal doses. The container outlet is usually arranged in the lid of the can. Container outlet and lid form a plane. The lid forms together with sidewall and bottom the can. Side wall and lid are connected at the edge by an edge which surrounds the lid. The edge of the can protrudes relative to the lid over the lid. The lid with the container outlet disposed therein is sunk within the edge. The container outlet is closed by a locking tab and the associated opening lever. The tab can be unscrewed out of the lid along a fractured edge by the lever action of the bendable opening lever so that the container outlet is exposed. The tab and the opening lever are connected by a rivet captive with the can. When the beverage can is open, the tab is located below the lid in the can, the opening lever above the lid. The attachment according to the invention can be placed on the can thus opened and then sealingly abuts against it.

The attachment has a contact surface 2, a reservoir 4 for a second fluid and a channel 6. The channel 6 establishes via an inlet opening 8 a connection between a container outlet and the outlet 10 of the attachment. The contact surface 2 defines a contact plane A. The contact surface 2 is provided with a seal 12 made of elastic plastic. The seal has a cross-section of about 2 x 2 mm and is compressed to about 1 mm with attached to the liquid container essay.

According to the invention, the attachment 1 has a tensioning lever 14. The tensioning lever 14 extends beyond the abutment plane A. In the position of use, ie with attached to the liquid container essay, the clamping lever 14 extends through the container outlet. The tensioning lever 14 is fixed in the channel 6 to the wall 16 to the reservoir 4. Alternatively, the clamping lever 14 could also be attached to the underside 18 of the reservoir or in the channel 6 on the outer wall 20 of the attachment 1. Which version is chosen depends on the dimensions of the respective attachment and the desired flow behavior of the first liquid, which is removed from the liquid container with a fixed attachment.

The tensioning lever 14 further has a first portion 22 which extends from the attachment in the direction of plant level. The first portion 22 of the clamping lever 14 is, relative to the contact surface 2, preferably eccentrically mounted. The tensioning lever 14 has a second portion 24 extending from the first portion 22 to a free end 30. The first portion 22 thus connects the attachment with the second portion 24. Based on the abutment plane A, the first portion 22 has a greater pitch than the second portion 24. The tensioning lever 14 is thus designed angled or curved. The first section 22 is arranged at an angle of 85 ° with respect to the abutment plane. It could be arranged at an angle of 60 ° to 90 °. The first portion 22 serves to guide the tensioning lever 14 in the vicinity of the plant level; So the steepest possible arrangement is preferred. Deviations in a range of up to 60 ° are possible if it allows the construction of the clamping lever 14 and the essay.

The second section is arranged at an angle of 40 ° with respect to the installation plane. Possible is an angle of 20 ° to 70 °, because at a smaller angle, it is too difficult to introduce the clamping lever 14 in the container outlet. Too large an angle increases the dimensions of the clamping lever 14 and thus the essay 1 unnecessarily.

The clamping lever 14 has a bottom 26 and a top 28 which may be parallel but need not. In the present case, the underside 26 and the upper side 28 of the first section 22 run parallel. The upper side 28 of the second section 24 extends, with respect to the abutment plane A, steeper than the underside 26 of the second section. As a result, the clamping lever 14 at the transition from the first to the second section of a large material thickness and thus high strength and rigidity. At the same time, the free end 30 of the clamping lever 14 has a small cross-section. The upper side 28 of the second section 24 has two surfaces of different inclination, the pressure surface 32 having a slope which is less than the inclination of the guide surface 34, which is greater than the inclination of the pressure surface 32. The pressure surface 32 extends from the transition between the first and second portion of the clamping lever 14 to the guide surface 34. The pressure surface 32 faces in the position of use of the inner wall of the lid of the liquid container. The guide surface 34 extends from the free end 30 to the contact surface 32 of the clamping lever. Due to the inclination of the guide surface 34 to the free end 30 is a wide distance between the bottom 18 of the essay 1 and the top 28 of the clamping lever opens, which facilitates the insertion of the clamping lever 14 in the container outlet.

The inclination of the pressure surface 32 is selected as a function of the container wall, here the lid of the beverage can and the contact surface 2 or the seal 12, to ensure a secure fit of the essay. It is preferably between 30 ° and 55 ° relative to the installation level. The pressure surface 32 is advantageously arranged in the center of the contact surface 2. However, in order to avoid that the cocking lever 14 is too long and thus the engagement of the clamping lever 14 in the container outlet is too difficult, the pressing surface 32 may be arranged eccentrically, as in the Fig. 1-3 shown. In this case, it is preferably arranged in a range of up to 2/3 of the radius of the contact surface, starting from the center of the contact surface, particularly preferably in a range of up to 1/3 of the radius of the contact surface. The distance between the free end 30 of the clamping lever 14 and the contact surface 2 and the bottom 18 of the attachment 1 is sufficiently large, so that the clamping lever can also be inserted into a narrow container outlet.

The clamping lever 14 is in use with the pressure surface 32 on the inside of the lid of the beverage can. The clamping lever 14 biases the cover between the pressure surface 32 and the bottom 18 of the essay. Here are after the in Fig. 1-3 illustrated embodiment of the clamping lever 14 and the bottom 18 of the attachment 1 rigidly formed. The distance between pressure surface 32 and underside 18 of the attachment is still variable by the inclination of the contact surface 32. After the clamping lever 14 is with the pressure surface 32 with the lid of the beverage can engaged, the seal 12, which is applied to the contact surface 2, here is glued, compressed and thereby sealingly against the container wall, here the outside of the lid of the beverage can, on.

In the event that the support surface 2 or the seal 12 of the attachment 1 should be positioned in the position of use in a groove between the lid and the protruding edge of the side wall of the beverage can, the seal in the position of use, so with attached essay , may no longer be compressed appropriately. In order for this case leaks between attachment and liquid container exclude, according to a particularly advantageous embodiment of the invention, at least one abutment 36 on the attachment 1, preferably arranged on the underside 18. The abutment 36 extends into the contact plane, provided that the contact surface 2 rests directly against the container wall. The abutment 36 optionally extends beyond, if a seal 12 is applied to the contact surface 2, but it does not extend beyond the seal 12 but only up to the plane which is determined by the compressed seal 12 (see Fig. 3 ). The abutment 36 ensures in a simple manner that the attachment 1 rests on the outside of the container wall, usually the lid of a beverage can. Together with the clamping lever 14 causes the abutment 36, the sealing abutment of the contact surface 2 on the liquid container, even if the contact surface 2 is arranged above a groove at the edge of the lid of the liquid container.

The abutment 36 may, as in Fig. 3 shown formed as a block which is attached to the edge of the contact surface 2. The abutment 36 may be of any shape, for example, cylinders, truncated cones or truncated pyramids, which are arranged on the attachment 1, usually on the underside 18. It can also be provided a plurality of abutment 36.

According to a further advantageous embodiment, the attachment according to the invention has a ventilation channel 38, which extends from a supply air opening 40 in the outer wall 20 of the attachment 1 to a vent opening 42 in the reservoir 4. The ventilation duct 38 offers the advantage over a simple vent opening that the risk of leakage of liquid is minimized. In addition, by means of the ventilation duct 38 it is possible to arrange the supply air opening 40 close to the passage 44, which connects the reservoir 4 to the duct 6. In this way, according to a preferred embodiment of the invention, the passage 44 and the supply air opening 40, after filling the reservoir with the second liquid during transport, can be sealed together by a single closure, e.g. B. by a film or composite of plastic, metal and / or paper or by a paper. The supply air opening 40 has a diameter of preferably up to 2 mm, the passage 44 may be of any shape, for. B. 1 mm high and 4 mm wide or round or oval. The closure is preferably glued and is after placing the attachment 1 on the liquid container deducted. In this way, a reliable ventilation of the reservoir 4 is ensured, without which the desired removal of the second liquid from the reservoir 4 is not possible. The vent passage 38, through which the vent opening 42 is preferably routed to an area opposite the passage 44 and the supply air opening 40, prevents the second liquid from exiting the reservoir through the supply air opening 40 upon removal. When removing the second liquid from the reservoir 4, the vent opening 42 is preferably above the liquid level.

The reservoir 4 is formed by the outer wall 20, the underside 18 of the attachment 1, the wall 16 to the channel 6 and by a cover 46 (see Fig. 2 ). The cover can be made removable. Preferably, after filling the reservoir 4, the cover 46 is permanently connected to the attachment 1 or to the outer wall 20, for B. glued or welded. Alternatively, the reservoir may be filled through the passage 44. The ventilation channel 38 is preferably attached to the cover 46.

The article according to the invention can be produced in any desired manner, with plastic injection molding being particularly preferred. Preferably, the attachment is made in one piece, apart from the cover 46, which is usually also produced by injection molding and usually only after filling of the reservoir 4 is placed. Alternatively, the clamping lever 14 can be subsequently connected to the essay 1, z. B. by welding or gluing, but also by locking or clamping. The cover and the clamping lever may be made of the same material as the attachment or of another material, for. B. from another plastic, metal or composite material, eg. B. a fiber reinforced plastic. The tensioning lever 14 typically protrudes from the channel 6 under the bottom 18 of the reservoir 4. It may alternatively be attached to the bottom 18.

After preparing the article 1, the reservoir with the second liquid, for. As a juice or tea concentrate or an alcoholic liquid filled. Then the cover 46 is applied. After filling the reservoir and applying the Cover 46, the passage 44 and the supply air opening 40 are closed. Thus, the essay 1 is ready for transport and ready for use.

After opening a liquid container, here a beverage can, the clamping lever 14 is inserted through the container outlet until the pressure surface 32 rests against the inside of the container wall. Depending on the design of the container wall surrounding the container outlet, z. B. as a rigid or elastic lid, the article is clamped sealingly on a rigid cover between clamping lever 14 and contact surface 2 and elastic seal 12. Alternatively, an elastic lid bulges between clamping lever 14 and contact surface 2 or elastic seal 12. The clamping lever 14 may be rigid or elastic. It depends on the particular version of the essay 1 only on the fact that between the clamping lever 14 and contact surface 2 and seal 12 sufficient force is built up, which ensures the sealing abutment of contact surface 2 or seal 12. From the liquid container with the attachment 1 can now be drunk or poured. For this purpose, the liquid container is tilted with the attachment 1 and the first liquid passes through the container outlet into the space between the liquid container and attachment and the channel 6, which opens into the outlet 10, from. While the first liquid flows through the channel without loss and exits the outlet 10, the second liquid flows through the passage 44 due to the inclination of the attachment and mixes with the first liquid.

The pressure surface 32 of the clamping lever 14 arranged within the contact surface 2 builds pressure on the contact surface 2 or the seal 12 in a favorable force distribution from approximately a central arrangement. This ensures a tight fit of the attachment 1 on the liquid container. An opening lever located approximately on top of the lid, with which the liquid container has been opened, is received in the space between the liquid container and the underside 18 of the attachment. The opening lever does not interfere with it builds additional force, if necessary, which supports the sealing attachment of the attachment to the liquid container.

The above description draws as a representative embodiment of a beverage can zoom. But it is applicable to all liquid containers in which the Container wall surrounds the container outlet in the plane of the container outlet, as is the case of the lid of the beverage can. Various features of the essay can be freely combined.

Claims (11)

1. An attachment (1) for a liquid container with a cover, in which a container outlet is arrganged, wherein the liquid container is surrounded by a container wall and is intended to receive a first liquid, wherein the attachment (1) has

   - a bearing surface (2), which defines a bearing plane (A), for bearing in a sealing manner against the liquid container

   - a reservoir (4) for a second liquid,

   - a channel (6), which connects the container outlet to an outlet (10) of the attachment (1) and

   - a passage (44), which connects the reservoir (4) to the channel (6),

   characterized in that the attachment (1) is equipped with a clamping lever (14), which extends in the use position through the bearing plane (A) and the container outlet and which has a pressing surface (32) facing the inner side of the liquid container in the use position, wherein the clamping lever (14) bears against the inner side of the cover of the container.
2. The attachment according to claim 1, characterized in that the clamping lever (14) is designed rigidly or elastically.
3. The attachment according to one of claims 1 or 2, characterized in that the clamping lever (14) is designed as a lever or bracket.
4. The attachment according to at least one of the preceding claims, characterized in that the clamping lever (14) has a first section (22), which is connected at a first end with the attachment (1) and which is connected at a second end with a second section (24), wherein, with respect to the bearing plane (A), the first section (22) has a different slope than the second section (24).
5. The attachment according to at least one of the preceding claims, characterized in that the first section of the clamping lever (14), with respect to the bearing surface (2), is attached eccentrically to the attachment (1).
6. The attachment according to at least one of the preceding claims, characterized in that the clamping lever (14) has a pressing surface (32), which, starting from the center point of the bearing surface (2) is arranged at a distance of up to 2/3 of the radius of the bearing surface (2).
7. The attachment according to at least one of claims 4 to 6, characterized in that the second section (24) of the clamping lever (14) carries the pressing surface (32) and in that the second section (24) is connected with the first section (22) of the first clamping lever (14) and opens oppositely in a free end (30).
8. The attachment according to claim 5, characterized in that the second section (24) of the clamping lever (14) has a guide surface (34) with a first slope, which extends from its free end (30) in the direction of the first section (22), wherein the pressing surface (32) connects to the guide surface (34), the pressing surface (32) extending from the first section (22) in the direction of the free end (30), wherein the pressing surface (32) has a second slope, which differs from the slope of the guide surface (34).
9. The attachment according to at least one of the preceding claims, characterized in that the bearing surface (2) is provided with a seal (12).
10. The attachment according to at least one of the preceding claims, characterized in that the reservoir (4) is provided with a ventilation duct (38).
11. The attachment according to at least one of the preceding claims, characterized in that an exhaust opening (42) of the channel (6) opens into an area of the reservoir (4) opposite the passage (44) and the air supply opening (40) of the same opens on the side of the passage (44) of the reservoir (4) into the channel (6) in the reservoir (4).

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