DE4241341C1 - Closure, in particular bottle closure - Google Patents

Abstract

Described is a closure, in particular for bottles, with a cap (11), in particular a screw-on cap, made of plastic or a similar material, which is designed to be placed over the neck (10) of the bottle, and with a closure membrane (16) which rests against the top (15) of the cap. The closure membrane (16) rests against an annular rib (19) extending round the inside of the cap above the rim (17) of the bottle mouth (18). This support rib (19) is joined to the cap top (15) or the closure membrane (16) in such a way that, when an overpressure inside the closed bottle causes the closure membrane (16) and cap top (15) to bulge outwards, the closure membrane is lifted by the pressure away from the rim (17) of the bottle mouth (18), thus allowing the interior of the bottle to be automatically vented (arrow 20).

Description

The invention relates to a closure, in particular fla closure according to the preamble of claim 1.

Bottles for storing liquids, especially of Drinks pose a possible danger for the consumer. Glass bottles can burst or shatter while doing so injure the user or third parties. This danger is for the Consumers regardless of the filling level of the bottles. As The reasons for the bursting of a bottle come primarily an excessive internal pressure due to insufficient filling or a crack damage in the hollow glass into consideration. Can too closures of glass or plastic bottles high explosive bottle pressure and explode and get injured tongues, especially eye injuries to the consumer To avoid the aforementioned dangers, Ver closures, especially bottle caps place that an automatic ventilation (blow off) in Ab dependence on the internal pressure building up in the bottle guarantee. In this regard, there are a variety of Lö songs such as B. according to DE-29 02 859 A1 or according to  EP-0 464 384 A1. The cap according to DE-29 02 859 A1 consists of a plastic whose flexural strength speed changes depending on the temperature, so that at a temperature rising above room temperature the Cap floor rise due to the temperature increase the pressure inside the container can be arched. The elastically deformed bare zone is by an annular bending zone in the over passage area between the cap jacket and the cap base educated. In the aforementioned bulge due to it If the outside temperature is high, the sealing effect of the closure lifted cap, so that an automatic pressure reduction in Bottle interior. The disadvantage is that this be known system depending on the outside temperature tet. If at room temperature one with a carbon dioxide bottle filled with drink shaken with the result that the internal pressure increases due to the carbonic acid released, is the aforementioned automatic pressure reduction inside the bottle space not guaranteed. In this regard, the construct tion according to EP-0 464 384 A1 remedy, by several formed on the cap bottom sealing lips that the edge of the Bottle opening are assigned. The disadvantage is that this Construction sufficient security only with very accurate manufactured bottle openings allowed. This demand is there but not in line with today's bottle production, but it must also be borne in mind that when refilling bottle openings very often damaged are. In this case, the known construction would also be ineffective.

There are also locking arrangements with abge on the cap bottom supported closure membranes known to provide increased sealing to achieve effect. In this regard, u. a. to DE-91 06 951 U1 referred. The known construction allows each but no automatic ventilation at increased pressure in the fla interior. The situation is very similar with the Kon structure according to EP-0 179 498 A1.  

The closure according to DE-40 07 325 A1 with closure member bran does not allow automatic venting of the container or the bottle. The sealing membrane can only be in bulge a cap cavity to accommodate higher gas pressures compensate inside the container.

DE-36 11 089 A1 discloses a closure cap with a closure Membrane known that work in the manner of a pressure relief valve tet. If there is overpressure in the product container, the closure will give way membrane in recesses formed on the circumference of the cap base gene and gives the overpressure in the container Gas the way out over the edge of the container opening way free. After the pressure drops, the sealing membrane takes off back to its original shape. The aforementioned Vertie Fungments extend in the circumferential direction with the result that the provision of the sealing membrane in the sealing position in the we significant only from the restoring force of the closure membrane or their elasticity depends. A permanently tight ver end of a beverage bottle can be with this construct tion.

The screw cap for bottles according to DE-38 39 351 A1 also has a sealing membrane, which is inadmissible according to the overpressure inside the bottle in a between the cap membrane and cap bottom formed cavity gives way. The resistance that the sealing membrane has must wind, is set so that the on the closure membrane the pressure exerted is significantly below the pressure, where the bottle could explode.

Based on the aforementioned prior art, the present invention the object of a safe safety closure, in particular safety bottle closure create a functionally reliable ab with simple means blowing or automatic venting of the bottle allowed, and  even if the edge of the bottle opening is either is worked inaccurately or is damaged, whereby after the Ent ventilation again a tight seal should be guaranteed.

This object is achieved by the characterizing Features of claim 1 solved. Draws accordingly the system according to the invention is characterized by a double membrane okay. The elastically deformable cap base forms the outer membrane, while the Ver closing membrane forms the inner membrane. The provision of the inner sealing membrane in the sealing position takes place through the Resilience of the cap base. It is from beson whose interest is the support of the inner sealing membrane in the area above the edge of the bottle opening via a circumferential, ring-shaped rib, which with the cap bottom or alternatively is coupled to the closure membrane so that it in case of excess pressure inside the sealed bottle due bulging of the cap base to the outside or correspond appropriate bulging of the sealing membrane, lifting it off from the top of the bottle opening and thus venting of the bottle interior allowed. When training the circulate The ring-shaped support rib on the cap base becomes the support when the cap bottom bulges out, rip it outwards taken inside and up, which originally caused the the closure membrane in the area of the edge of the bottle opening tension applied is removed. This is it is possible that the closure membrane at overpressure in the Fla the inside of the bottle opening so that a there is overpressure inside the bottle due to a between Sealing membrane and edge of the bottle opening arise Gap can be reduced to the outside. As soon as pressure again balance prevails, the elastically deformable returns Bottom of the cap in its original flat starting position back, with the support of the cap base closure membrane. At the same time, the circumferential, ring shaped support rib swung back to its starting position,  so that the sealing membrane again under the desired front tension or closing force.

To the aforementioned sequence of movements between the support rib and The support rib is preferred to promote the closure membrane inclined radially inwards. Furthermore is the support rib preferably in cross section towards the closure conical tapered membrane. So the support points rip on its own bending elasticity and acts as a two switched spring element. Furthermore, this can Manufacturing tolerances both in the area of the closure and well balanced in the area of the bottle opening.

To increase the elasticity of the cap base, this is right relatively thin-walled. To be sufficient nevertheless To ensure strength and resilience are inside pimples, webs, ribs, especially around on the bottom of the cap running, annular ribs formed on which the Supporting membrane supports. The aforementioned knobs, webs, Ribs are in the area within the circumferential, ring-shaped support rib facing the edge of the bottle opening is ordered.

By the aforementioned support of the closure membrane on the Knobs, webs or Ribs become an equidistant bulge of the closure membrane ensured in relation to the cap bottom. Preferably are the aforementioned knobs, webs and / or ribs as well like the outer circumferential, the edge of the bottle opening arranged support rib flexurally elastic and in cross section in Rich tion to the sealing membrane is conically tapered. Of further they can just like the outer circumferential support rib be inclined radially inwards. Form this way those within the outer circumferential and the edge of the fla knobs arranged on the opening of the support rib,  Bridges and / or ribs also interposed Federele ment.

Through the aforementioned knobs, webs and / or ribs also the friction between the cap bottom and the sealing membrane reduced to a minimum. Accordingly, through this Friction bulging or resilient return of the cap bottom in its flat starting position different.

To the above co-movement of the outer, the edge of the Bottle opening associated support rib with the cap bottom ensure, when forming the support rib as an inte integral part of the cap the support rib opposite the The base of the cap is offset by a circumferential ring groove. Thereby is between the cap bottom and the aforementioned support rib created a circumferential vulnerability, the bulge of the cap base in the manner described above is. In addition, the intended function of the external ren, support rib assigned to the edge of the bottle opening promoted by that this support rib above the radially inner Half of the edge of the bottle opening is effective. Preferential the aforementioned annular groove lies between the outer Support rib and the cap bottom at about the level of the inner loading limitation of the bottle opening.

Between the outer circumferential, the edge of the bottle opening assigned support rib and the cap jacket is flat if a circumferential undercut is provided, the just if contributes to the fact that if there is overpressure inside the Bottle that can bulge out of the cap base together with the sealing membrane.

Preferably, the cap and closure membrane consist of one common recyclable base material, especially one Combination of polyolefins.  

Regarding the construction of the closure membrane is claimed 10 referenced.

Reusable glass or PET bottles can be equipped with reliable functions.

Below is a preferred embodiment of an invention appropriately trained bottle stopper based on the attached drawing explained in more detail. Show it:

Fig. 1 an inventive trained bottle closure in the normal closed position partly in view, partly in section;

FIG. 2 shows the bottle stopper according to FIG. 1 at increased pressure inside the bottle, likewise a partial view and partly in section; and

Fig. 3 shows a part of the bottle cap according to FIG. 2 on an enlarged scale.

In FIGS. 1 to 3, a bottle closure is shown with an attachable onto a bottle neck 10, namely screwable cap 11 made of plastic which nalitätssicherungsring a connected via a predetermined breaking point 12 to the cap skirt 13 Origi 14 comprises the development in an attached Stel the cap 11 engages behind a bead or the like formed on the bottle neck, not shown here, and with a closure membrane 16 supported on the cap base 15 . The closure membrane 16 is supported in the area above the edge 17 of the bottle opening 18 via a circumferential, annular rip 19 . The rib 19 is an integral part of the cap base 15 and is designed such that when the overpressure within the sealed bottle causes the bulge of the cap base 15 (see FIG. 2), the United membrane 16 is lifted off from the edge 17 of the bottle opening 18 and thus a Venting of the bottle interior allowed (see arrow 20 in Figs. 2 and 3).

As shown in FIGS. 1 to 3, the circumferential, annular support rib 19 is an integral part of the cap 11 and is offset from the cap base 15 by a circumferential ring groove 21 . The annular groove 21 is a deliberately produced weakening of the material, which promotes the arching of the cap base 15 in the manner of a membrane according to FIG. 2. In addition, the circumferential annular groove 21 is designed so that when the cap base 15 bulges as shown in FIG. 2, the circumferential support rib 19 is taken radially inwards and upwards, with the result that the axial preload exerted by the support rib 19 on the closure membrane is removed becomes. Thus, with a correspondingly high overpressure inside the bottle, the closure membrane 16 can be lifted from the edge 17 of the bottle opening 18 according to FIGS . 1 and 3 (dash-dotted line), and gas from the inside of the bottle through which then between the closure membrane and the edge 17 escape the gap forming the bottle opening 18 to the outside (arrow 20 ).

As shown in FIGS. 1 to 3, the circumferential, annular support rib 19 is inclined radially inwards. Furthermore, the support rib 19 is tapered in cross section in the direction of the closure membrane 16 . These two measures favor the bending elasticity of the support rib 19 , so that the support rib 19 defines a resilient intermediate element between the cap 11 and the closure membrane or edge 17 of the bottle opening 18 . This Federelasti zity is particularly important when satchels of production must be balanced both in the area of the cap 11 and in the area of the edge 17 of the bottle opening 18 . This also compensates for minor damage to the edge 17 of the bottle opening 18 .

In the illustrated embodiment, the cap bottom 15 has on the inside or bottle side in the area within the umlau fenden, the edge 17 of the bottle opening 18 associated support rib 19 further circumferential, annular ribs 22 , 23 and a central projection 24 , all of which support from Closure membrane 16 serve on the cap base 15 . The opening 18 associated support rib 19 between the central protrusion 24 and the outer disposed about ongoing support rib 19 circumferential support ribs 22, 23 are with respect to inclination and cross-section similar to that of formed as the outer circumferential, the edge 17 of the bottles. The supporting ribs 22 , 23 are also correspondingly flexible. They form Lich Lich as the outer circumferential support rib 19 resilient intermediate elements between the cap base 15 and the closure membrane 16th Accordingly, the described closure is characterized marked by an outer membrane in the form of the cap base 15 , an inner closure membrane 16 and intervening spring elements 22 , 23 and 19 , which ensure an equidistant bulge from the cap base 15 and the closure membrane 16 .

To favor the removal of the bias of the outer circumferential support rib 19 when the cap base 15 bulges, the outer circumferential support rib 19 is preferably effective over the radially inner half of the rim 17 of the bottle opening 18 . The contacting the closure membrane 16 edge of the support rib 19 migrates upon bulging the Kappenbo dens 15 according to the dash-dotted representation in Fig. 3 inwards and upwards. As a result, the closure membrane 16 comes free from the top of the edge 17 of the bottle opening 18 . This enables the bottle to be vented automatically. This result occurs particularly quickly when the circumferential edge of the support rib 19 comes into a position in which it lies within the inner boundary 25 of the bottle neck 10 , as is shown in broken lines in FIG. 3. Then the support rib 19 does not exert too much resistance to lifting the closure membrane from the top of the edge 17 of the bottle opening 18 . The original axial prestressing of the closure membrane 16 is largely eliminated. However, it resets after resetting the cap base 15 and accordingly resetting the support rib 19 to the full extent in the initial position.

The cap 11 and closure membrane 16 are preferably made of a common recyclable base material, in particular a combination of polyolefins.

The bending elasticity and the resilience (residual verfor mung) of the sealing membrane can be through the multilayer Structure of the same can be set.

It goes without saying that the closure described here is suitable not only for bottles, especially bottles for storing CO ₂ -containing beverages, but also for other hollow containers, the filling of which can lead to excess pressure, so that excess pressure is blown off is necessary for security reasons.

The circumferential undercut between the outer support rib 19 , which is arranged along the edge 17 of the bottle opening 18 , and the cap jacket 13 is also important . This rear cut favors the membrane-like bulge of the cap base 15 and in particular allows the outer peripheral edge of the closure membrane 16 to escape when it is lifted from the top of the edge 17 of the bottle opening 18 , as can be seen in FIG. 2.

All features disclosed in the registration documents are claimed as essential to the invention, insofar as they are a individually or in combination compared to the prior art are.

Claims (9)

1. closure, in particular bottle closure, with an attachable on a bottle neck (10), and in particular screwable cap (11) made of plastic or the like., Which, if necessary, a connected via a predetermined breaking point (12) with the cape penmantel (13) tamper-evident ring ( 14 ) which, in the attached position of the cap ( 11 ), engages a bulge or the like formed on the bottle neck, and with a closure membrane ( 16 ) supported on the cap base ( 15 ), characterized in that the closure membrane ( 16 ) is in the region Above the edge ( 17 ) of the bottle opening ( 18 ) is supported by a circumferential ring-shaped rib ( 19 ), said support rib ( 19 ) being coupled to the cap base ( 15 ) or the closure membrane ( 16 ) in such a way that it is coupled with due to overpressure inside the closed bottle due to bulging of the cap base ( 15 ) or the closure membrane ( 16 ), lifting the same from the edge ( 17 ) of the bottle Opening ( 18 ) and thus an automatic venting (arrow 20 ) of the bottle interior allowed. 2. Closure according to claim 1, characterized in that the circumferential, the edge ( 17 ) of the bottle opening ( 18 ) associated support rib ( 19 ) is an integral part of the cap ( 11 ) and opposite the cap base ( 15 ) by a circumferential annular groove ( 21 ) is discontinued. 3. Closure according to claim 1 or 2, characterized in that the circumferential, the edge ( 17 ) of the bottle opening ( 18 ) associated support rib ( 19 ) is inclined radially inwards. 4. Closure according to one of claims 1 to 3, characterized in that the circumferential, the edge ( 17 ) of the bottle opening ( 18 ) associated support rib ( 19 ) in cross-section in the direction of the closure membrane ( 16 ) or towards its free edge conical is tapered. 5. Closure according to one of claims 1 to 4, characterized in that the cap base ( 15 ) on the inside or bottle side in the area within the circumferential, the edge ( 17 ) of the bottle opening ( 18 ) associated rib ( 19 ) projecting knobs ( 24 ), webs, ribs, in particular circumferential, annular ribs ( 22 , 23 ) for supporting the closure membrane ( 16 ) on the cap base ( 15 ). 6. Closure according to claim 5, characterized in that the edge ( 17 ) of the fla's opening ( 18 ) associated ( 19 ) and possibly also in neren ( 22 , 23 ) support ribs are elastic, in particular bie geelastic. 7. Closure according to claim 5 or 6, characterized in that the circumferential support ribs ( 22 , 23 ) in the region within the edge ( 17 ) of the fla's opening ( 18 ) associated circumferential support rib ( 19 ) as well as these each inclined radially inward and are tapered in cross-section in the direction of the closure membrane ( 16 ) or towards their free circumferential edge. 8. Closure according to one of claims 1 to 7, characterized in that the edge ( 17 ) of the fla's opening ( 18 ) associated circumferential support rib ( 19 ) over the radially inner half of the edge ( 17 ) of the fla's opening ( 18 ) effective is. 9. Closure according to one of claims 1 to 8, characterized in that the cap ( 11 ) and sealing membrane ( 16 ) are made of a common recyclable base material, in particular a combination of polyolefins.