CZ2002994A3 - Cup-like screw cap - Google Patents

Abstract

The invention relates to a plastic screw cap (3) with a cylindrical sealing ring (7) on the outer cylinder surface of which a sealing shoulder (8) is formed which is spaced from the bottom surface of the base plate (6) and which projects radially. Said sealing shoulder is sealingly forced against the inner wall (13) of a container opening when said opening is closed. If an overpressure builds up in the container, said sealing shoulder is lifted off from the inner wall (13) so that the overpressure can escape, thereby reliably preventing the container from exploding.

Description

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plastic screw cap having a substantially cylindrical internally threaded side, a base plate and a cylindrical sealing ring extending radially spaced from the base plate inwardly to a side wall. from the base surface of the base plate which, when the container mouth with the corresponding external thread is closed, seals against the inner wall of the container mouth.

BACKGROUND OF THE INVENTION

Such screw caps require a sealed container to be closed, but also to allow pressure equalization at the overpressure generated in the container, for example by thermal expansion of the contents of the container or due to the contents of the gas generating container when this overpressure exceeds a certain value to prevent the container from bursting. This means that at a certain overpressure the closure should be temporarily leaking, but if the overpressure is sufficiently reduced, it should be tightly closed again.

Known screw closures of the above type have a through base plate that immediately passes into the cylindrical side wall.

In the screw cap according to German utility model 2 013 635, the sealing ring of the sealing ring abuts the inner wall of the container mouth immediately after the inner edge of the container mouth. When the base plate of the screw closure arches outwards under pressure in the container, it is

this also results in axial movement of the sealing ring so that at a certain overpressure the sealing foot slides over the edge of the mouth and releases the slot that this overpressure can escape, whereupon the camber disappears and the sealing foot has resealed against the inner wall of the container mouth. In practice, it has been shown that the manufacturing accuracy of the inner edges of the mouths of the containers is insufficient to provide a defined abutment for the sealing shoe and act together with it as a pressure relief valve for reliable opening and closing, in particular mouth edges often showing slight damage. reusable glass bottles. In addition, abrasion of the sealing foot occurs due to the repeated axial movement of the sealing foot over the inner wall of the container mouth when opening and closing the pressure relief valve, which causes a permanent leak of the screw cap.

A further disadvantage of this screw closure is that the axial movement component extending up to the transition region of the base plate to the side wall also results in axial expansion of the cylindrical side wall when the base plate is arched, with a biasing torque depending on the expansion. with which the screw cap was screwed. As a result, the opening pressure at which the pressure is to be reduced is not precisely defined, but is largely random.

GB 958 417 discloses a similar screw closure having protrusions extending from the base plate inwards which serve as stops, and when screwed on the closure they engage the respective mouth of the container on its face. As a result, dilatation of the male side of the screw cap provided with an internal thread is not used to provide an axial degree of freedom to the base plate. Since the elasticity of this axial degree of freedom is decisive for the opening pressure, but only the region between the cylindrical sealing ring and the outer edge of the end face of the container mouth is available for this flexibility, the base plate must be very thin in order to achieve sufficient flexibility.

This is disadvantageous because manufacturing tolerances are particularly pronounced.

In another known screw closure of this type, the continuous base plate is provided with an annular circumferential inner groove in the region between the cylindrical sealing ring and the extensions serving as stops on the end face of the container mouth, so that the base plate is here somewhat smaller in thickness or weakened. When the base plate within the sealing ring arches out due to the overpressure in the container, this weakening groove allows the sealing ring to perform a small pivot inward movement, the weakening groove acting as a quasi-pivot joint. In this case, the sealing ring of the sealing ring is lifted radially from the inner wall of the container mouth at a correspondingly high pressure and releases the gap, which can reduce the overpressure.

In this screw closure, it is disadvantageous that at relatively high pressures the axial displacement of the seal against the wall of the container first occurs and after deformation or deformation, respectively. When bending the base plate, the sealing ring is taken out of service. In this procedure, the base plate is deformed to such an extent that its resilience can be switched and most of its reciprocating ability is lost. In addition, this system is highly dependent on narrow tolerances and hardly permits any fluctuations in the material used during production. It has also proven difficult from a manufacturing point of view to provide a radial pressure reduction between the sealing foot and the inner wall of the container mouth at all times. Extensions protruding from the base plate, which are intended to abut the end face of the container mouth, complicate and increase the cost of the injection mold and method of manufacture, and hence the screw cap, as the final product.

4. Summary of the Invention

SUMMARY OF THE INVENTION It is an object of the present invention to provide a screw closure of the above type which is designed and arranged, in particular in its sealing region, so that it can reliably and tightly close the container outwardly and react rapidly and immediately in a defined manner pressure relief.

This object is achieved according to the invention in that the base plate is divided into an annular bearing part abutting the end face of the closed mouth of the container and a disc-shaped or disc-shaped central part spaced from the bearing part, and at its inner edge, a sealing ring is formed with a sealing foot extending inwardly, wherein the sealing ring region at the transition to the abutment is formed as thin-walled and resilient, and at a distance from the abutment while maintaining the thin-walled region. middle part.

The central part forms the actual functional part of the base plate, which arches outwards when an overpressure occurs in a container tightly closed by this screw cap. By being offset from the abutment and retaining the thin-walled transition region on the sealing ring, by applying overpressure in the receptacle to the central section, it is easy to tilt its edge inwardly while driving the sealing ring and thus the sealing foot is lifted from the inner wall of the container mouth so that the overpressure can escape. Since the sealing ring, which lies in the area of the field line when the center plate of the base plate is curved, directly cooperates in the deflection, the sealing effect is quickly and safely canceled until pressure equalization occurs.

Defined contact of the base plate support part on the face

The mouth of the container makes it possible to precisely determine the sealing location of the sealing foot on the inner wall of the container mouth, so that in the mass production of the product tiny values of standard deviations can be maintained, thereby avoiding scrap.

According to a preferred embodiment of the invention, the disc-shaped or disc-shaped central part of the base plate is surrounded by an annular abutment while leaving the slot, and the sealing ring extending inwardly from its inner edge has a thin wall connection with the central part bridging the slot at a distance from the outer base surface.

The gap between the central portion and the surrounding annular base plate seating facilitates the folding movement of the edge of the central portion under overpressure.

In a preferred embodiment, the connection point between the sealing ring and the central plate of the base plate is at a height between the bearing surface of the bearing plate and the free edge of the shaped sealing ring.

According to a preferred embodiment of the invention, the disc-shaped or disc-shaped central part of the base plate has at its periphery a downwardly extending edge whose edge is connected to the adjacent inner surface of the cylindrical sealing ring by a bridge bridging said slot. This achieves a good and rapid response of the closure when overpressure occurs, for rapid pressure release.

The downwardly extending edge of the central part of the base plate then preferably extends up to the height of the sealing foot of the cylindrical sealing ring, and is connected at its edge by a bridge to the inner surface of the sealing ring.

The web may form a closed annular surface between the sealing ring and the downwardly extending edge of the central member.

According to another embodiment of the invention, the base plate is divided by means of a deep concentric, annular groove into an annular seating and a functional center piece, wherein a sealing ring extending inwardly from the inner edge of the seating is formed.

-6 of the part, as well as from the bottom edge of the surrounding part of the middle part.

The sealing ring extending inwardly may have a drop-shaped cross section to form a sealing foot.

According to another embodiment of the invention, the central part of the base plate is stepped away from the annular bearing part inwardly, wherein the step height corresponds at least to the thickness of the bearing part.

In another embodiment of the invention, the central portion is arched outwardly and extends circumferentially at a distinct distance from the abutment portion immediately into the sealing ring.

The connection point between the central part and the sealing ring is preferably at approximately the height of the sealing foot and the central part may have a thinner wall than the bearing part.

Overview of the drawings

The invention will now be described, by way of example, with reference to the accompanying drawing, in which: FIG. 1 is a partial cross-sectional view of a screw cap screwed onto a container mouth according to the invention; as in Fig. 1, but at an overpressure in the vessel to enable the screw closure to react within the meaning of the invention, Figs. 3 to 5 show further possible embodiments of the screw closure without claiming the completeness of all possible variants, on the contrary, other modifications and embodiments are possible without departing from the inventive concept.

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DETAILED DESCRIPTION OF THE INVENTION

In FIG. 1, the wall 1 of the container mouth with an external thread 2 is first shown in partial section. A screw cap 3 having a substantially cylindrical side wall 4 is screwed onto the container mouth with an internal thread 5 corresponding to the external thread 2 of the container mouth. The base plate 6 of the screw closure 3 is divided into an annular abutment part 6j which, at its outer edge, passes in a known manner into the side wall 4, and into a disc-like or disc-shaped central part 6. A substantially cylindrical sealing ring 7 is formed. extending concentrically and parallel to the side wall 4 and extending inwards. On the outer circumferential surface of this sealing ring 7, a radially protruding sealing shoe 8 is formed at a distance from the base surface, as is known per se. The area 17 at the transition of the sealing ring 7 into the annular abutment 6j is designed as thin-walled and sprung. The disc-shaped or disc-shaped central part 6 of the base plate 6 has a downwardly extending edge 9 which preferably extends up to the height of the sealing foot 8 of the sealing ring 7 and is connected here by an annular bridge 10 to the opposite inner surface of the sealing ring 7. radially inward, and with an opposing circumferential surface of the downwardly extending edge 9, which both extend preferably concentrically to each other, is provided with a slot 11 which is bridged only by the bridge 10.

The annular seat 6 / base plate 6 and the sealing ring 7 formed thereon with its sealing foot 8 are so dimensioned that when the screw cap 3 of FIG. 1 is screwed onto the corresponding mouth of the male threaded receptacle 2, the seat 6 / base the plate 6 on the annular face 12 of the container mouth wall 12, and the sealing foot 8 of the sealing ring 7 abuts against the inner wall 13 of the container mouth.

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When a certain overpressure occurs in the tightly closed container, the functional central part 6 of the base plate 6 is bent outward as shown in FIG. 2 and the slot 11 between the abutment part 61, respectively. a sealing ring 7 formed thereon and between the central part 6 with its formed edge 9, as well as the thin-walled spring region 17 at the transition of the sealing ring 7 in the annular abutment 61 together enable this camber, which can also be referred to as dome formation. lifts the sealing foot 8 of the sealing ring 7 away from the inner wall 13 of the container mouth and overpressure can escape due to this leak. By arching the central part 6 of the base plate 6, the edge 9 of the central part 6 performs a folding inward movement, by which the sealing ring 7 is carried by the bridge 10 and the sealing foot 8 is lifted. The sealing ring 7, which is located in the area of the field line under the overpressure prevailing in the container, directly cooperates in the arching of the central part 61, thereby quickly eliminating the sealing effect. As soon as the pressure equalization occurs, the camber of the central part 6 is brought back and the sealing foot 8 again bears spring-loaded on the inner wall 13.

The described screw closure 3 also has the further advantage that the sealing point of the sealing foot 8 on the inner wall 13 of the container mouth can be accurately determined due to the defined abutment of the abutment member 61 on the front surface of the container mouth by a distance "s" from the base surface. thus, in the mass production of such a product, slight deviations of the standard deviations can be maintained, and thus rejects are avoided.

FIG. 3 shows a modified embodiment of the screw closure according to the invention. Here, the base plate 6 of the screw closure is divided by an outwardly open annular groove 14, the depth of which extends over the entire thickness of the base plate 6, into the outer annular abutment 61 and disc-shaped or disc-shaped middle part 6, and the sealing ring 7 is formed on the inner surface of the base the plate 6 and in the region of the groove 14, starting from both the inner edge of the abutment part 6 'and from the abutment

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The sealing ring 7 also has a sealing foot 8 abutting on the inner side 13 of the container mouth, while the sealing ring 7 may have a drop-shaped cross-section and thus form a sealing foot 8 and on the other hand a thin-walled connection, both to the abutment member 61 and to the central member 6, permitting inward movement of the sealing ring 7 when the central member 62 is domed.

In the embodiment of FIG. 4, the central panel 62 of the base plate 6 is offset by a step 18 against the annular seating member 61 inwardly, so that the middle portion 6 passes immediately into the thin-walled region 17 of the sealing ring 7 formed on the seating member 61. the thin-walled region 17, which is important for the function of the screw closure according to the invention, corresponds to the step height at least to the thickness of the abutment part 61.

In the embodiment of FIG. 5, the central part 6 of the base plate 6 is arched outwardly and passes circumferentially at a considerable distance from the abutment part 61 into the sealing ring 7, according to FIG. at the same height with the formed sealing foot 8 and passes over the free edge T of the sealing ring 7, so that the functionally important thin-walled area 17 of the sealing ring 7 is also retained here. The domed middle part 6 of the base plate 6 has a thinner wall here the camber point is expediently at the same height with the outer base surface of the abutment member 61.

Claims (12)

PATENT CLAIMS A plastic screw cap substantially with a cylindrical side (4) provided with an internal thread (5), with a base plate (6) and a cylindrical sealing ring (7) extending radially from the base plate (6) inwards to the side wall on the outer cylindrical surface of which a sealing foot (8) is formed radially spaced apart from the base surface of the base plate (6) which, when the container mouth is closed, abuts against the inner wall (13) of the container mouth, 6) is divided into an annular seating part (6) abutting the end face (12) of the closed mouth of the container, and a disc-shaped or disc-shaped central part (6) offset from the seating part (6), the seating part (6) on its the outer circumference passes into the side wall (4) and a sealing ring (7) is formed on its inner edge with a sealing foot (8) extending inwards, wherein the region (17) of the sealing ring (7) at the transition to the abutment part (6) is formed as thin-walled and resilient, and a connection between the sealing ring (7) is arranged at a distance from the abutment part (6) while maintaining this thin-walled region (17). ) and the middle part (6). Screw closure according to claim 1, characterized in that the disc-shaped or disc-shaped central part (6) is surrounded by an annular abutment part (6) while maintaining the slot (11), the sealing ring (7) extending inwardly from its inner edge. it has a thin-walled connection with the central part (6) bridging the gap (11) at a distance from the outer base surface (15). Screw cap according to claim 2, characterized in that the connection point between the sealing ring (7) and the central part (6) of the base plate (6) lies at a height between the bearing surface (16) of the bearing part (6) and · -12 «· · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · A free edge (7) of the shaped sealing ring (7). Screw closure according to claim 2 or 3, characterized in that the disc-like or disc-shaped central part (6 ") of the base plate (6) has a downwardly extending edge (9) at its periphery, the edge of which is connected to the adjacent inner surface of the cylindrical sealing the ring (7) by a bridge (10) bridging the slot (11). Screw cap according to claim 4, characterized in that the downwardly extending edge (9) of the central part (6) of the base plate (6) reaches the height of the sealing foot (8) of the cylindrical sealing ring (7) and is connected here by a bridge (10) with the inner surface of the sealing ring (7). Screw cap according to claim 4, characterized in that the web (10) forms a closed annular surface. Screw cap according to claim 1, characterized in that the base plate (6) is divided by means of a deep concentric, annular groove (14) into an annular bearing part (6) and a functional middle part (6), wherein a sealing seal is formed here. a ring (7) extending inwardly and extending both from the inner edge of the abutment member (6) and from the lower edge surrounding the area of the central member (6). Screw plug according to claim 7, characterized in that the sealing ring (7) extending inwardly has a drop-shaped cross-section. Screw cap according to claim 1, characterized in that the central part (6) of the base plate (6) is offset by means of a step (18) against the annular seating part (6) inwardly, the height being I · · · · · -13 degrees (18) at least corresponds to the thickness of the abutment part (6). A screw cap according to claim 1, characterized in that the central part (6) is arched outwards and passes its circumference at a distinct distance from the abutment part (6) immediately into the sealing ring (7). Screw cap according to claim 10, characterized in that the connection point between the central part (6) and the sealing ring (7) lies approximately at the height of the sealing foot (8). Screw cap according to claim 10, characterized in that the central part (6) has a thinner wall than the abutment part (6).