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PLASTIC CONTAINER

20230192373 · 2023-06-22

    Inventors

    Cpc classification

    International classification

    Abstract

    The invention relates to a plastic container that is blown in a blow mold, having a body, defining an opening is provided, and a disposable closure, which closes the opening and is formed in the blow mold together with the body. A holding strip with a first end and a second end is also formed in the blow mold together with the body and the disposable closure. The first end is permanently fixed to the body, and the second end is permanently fixed to the closure. The body, the disposable closure, and the holding strip are formed as a single piece.

    Claims

    1. Plastic container which is blown in a blow mold, comprising a body defining an opening, a disposable closure configured to close the opening and formed together with the body in the blow mold, a holding strip with a first and a second end formed together with the body and the disposable closure in the blow mold, wherein the first end is permanently connected to the body and the second end is permanently connected to the closure, wherein the body, the disposable closure and the holding strip are in one piece.

    2. Plastic container according to claim 1, wherein the disposable closure is a rotary knob closure.

    3. Plastic container according to claim 1, wherein the holding strip consists of the same material as the disposable closure and the body.

    4. Plastic container according to claim 2, wherein the rotary knob closure has a cap section which is connected in one piece to a section bordering the opening and at a connection thereof has a weakened region configured as a first predetermined breaking point, wherein a gripping section projects from the cap section.

    5. Plastic container according to claim 4, wherein the gripping section has an upper edge, a lower edge and a first and a second lateral edge, wherein the first and second lateral edges space the upper and the lower edges apart from one another.

    6. Plastic container according to claim 5, wherein the first end of the holding strip is connected directly to the body below the lower edge.

    7. Plastic container according to claim 5, wherein the second end is connected to the rotary knob closure at the upper edge.

    8. Plastic container according to claim 5, wherein the holding strip extends along one of the lateral edges.

    9. Plastic container according to claim 5, wherein the holding strip is connected to one of the lateral edges by a second predetermined breaking point.

    10. Plastic container according to claim 5, further comprising a closure element, which is formed in one piece with the rotary knob closure, consists of the same material as the remaining container elements and is configured in such a way that the opening can be closed with the closure element, projects from one of the upper or lower edges that is free from the holding strip.

    11. Plastic container according to claim 10, characterized in that wherein the closure element is a stopper which can be held in a force-fitting, frictional and/or form-fitting manner on the section bordering the opening.

    12. Plastic container according to claim 11, wherein the stopper is hollow.

    13. Plastic container according to claim 4, further comprising a tubular section formed within the gripping section and extends between the cap section and the closure element.

    14. Plastic container according to claim 13, wherein an outer diameter of the tubular section is greater than a thickness of the gripping section.

    15. Plastic container according to claim 1, wherein the plastic container is produced from polyolefins suitable for blow molding, comprising the group consisting of at least one of polypropylene, polyethylene and derivatives thereof, and recycling materials, PET, recycled PET, bio-based plastics, and/or bio-based polybutylene succinates.

    16. Plastic container according to claim 1, wherein the plastic container is manufactured in an extrusion blow molding process and the disposable closure and the holding strip are formed from a flash that is produced in the blow mold.

    Description

    BRIEF DESCRIPTION OF THE DRAWINGS

    [0026] Further advantages and features become apparent from the following description of an exemplary embodiment of the invention with reference to the schematic representations. Shown, in a representation not true to scale, are:

    [0027] FIG. 1: a first embodiment of a plastic container in the form of a semi-finished product in a side view;

    [0028] FIG. 2: the embodiment of FIG. 1 in an axonometric view;

    [0029] FIG. 3: a second embodiment of the plastic container in the form of a tube in a side view;

    [0030] FIG. 4: a detailed view of a disposable closure, in which its gripping section is not shown for reasons of clarity;

    [0031] FIG. 5: an axonometric view of a third embodiment of the plastic container in the form of a bag;

    [0032] FIG. 6: a fourth embodiment of a plastic container in the form of a canister, and

    [0033] FIG. 7: a side view of a fifth embodiment which shows a disposable closure without a closure element.

    DETAILED DESCRIPTION

    [0034] FIGS. 1, 2, 3, 4 and 6 show various embodiments of a plastic container, which is denoted as a whole by reference sign 11. The plastic container 11 is blown in a blow mold. The container 11 has a body 13 on which an opening 15 is provided. A disposable closure in the form of a rotary knob closure 17 closes the opening 15. The rotary knob closure has been formed together with the body 13. As a result, the closure 17 can be twisted off the body and the opening 15 is uncovered.

    [0035] Together with the body 13 and the closure 17, a holding strip 19 has also been formed in one piece in the blow mold. The holding strip 19 has a first end 21 and a second end 23. At the first end 21, the holding strip 19 is fastened to the body 13. At the second end 23, the holding strip 19 is fastened to the rotary knob closure 17. As a result, the rotary knob closure 17 is captively held on the body, even when the rotary knob closure 17 has been twisted off the body 13 in order to open the container 11. In that the body 13, the rotary knob closure 17 and the holding strip 19 are formed together in the blow mold, thus they consist of the same material. In the present exemplary embodiment, the plastic container 11 is manufactured by extrusion blow molding so that the closure 17 and the holding strip 19 are formed from the flash produced when the blow mold is closed.

    [0036] The rotary knob closure 17 has a cap section 25 which is connected in one piece to the section 29 bordering the opening 15, as can be seen better in FIG. 4, and at the connection has a weakened region designed as a first predetermined breaking point 27. A gripping section 31 projects from the cap section 25. The gripping section 31 has an upper edge 33, a lower edge 35 and a first and second lateral edge 37, 39. The lateral edges 37, 39 space the upper and lower edges 33, 35 apart from one another. As a result, the gripping section 31 acquires a substantially rectangular shape.

    [0037] The first end 21 is connected directly to the body below the lower edge 35. The second end 23 is connected to the rotary knob closure 17 at the upper edge 33. In addition, the holding strip 19 extends along one of the lateral edges 37, 39. As a result, after opening, the holding strip 19 has a sufficient length so that the closure 17 is not in the way during emptying of the product filling the container 11. Since the gripping section 31 and the holding strip 19 are formed from the flash which is inevitably produced during the blow molding, it is advantageous for simplified production if a second predetermined breaking point 41 is present between the holding strip 19 and the gripping section 31. This second predetermined breaking point can be realized in the form of a plastic film which tears when the rotary knob closure 17 is turned.

    [0038] A closure element in the form of a stopper 43, which is formed in one piece with the rotary knob closure 17 and consists of the same material as the remaining container elements, projects from the upper edge 33. After the rotary knob closure 17 has been twisted off, the gripping section 31 can be turned so that the stopper 43 can be inserted into the opening 15 in order to re-close it. For simplified use, the stopper 43 can be rounded at its open end. In this case, the stopper 43 is held in a force-fitting, frictional and/or form-fitting manner on the section 29 bordering the opening 15. As a result, the opening 15 can be closed at least in a dust-tight manner. For example, a groove 44 which can be engaged in the section 29 may also be formed on the stopper 43. The length of the holding strip 19, which is produced by being led along a lateral edge 37, 39 makes it possible for the turning of the stopper 43 in the direction of the opening 15 not to be hindered. The holding strip 19 is therefore sufficiently long for the re-closure process to be possible.

    [0039] A tubular section 45, which is formed within the gripping section 31, extends between the cap section 25 and the stopper 43. The outer diameter of the tubular section 45 is greater than the thickness of the gripping section 31. The tubular section 45 increases the contact surface of the fingers during opening in order to enable application of sufficient torque to shear off or break the first predetermined breaking point 27. On the other hand, the tubular section 45 serves as an actuator when the stopper 43 is being inserted into the opening 29. The tubular section 45 also makes it possible for blowing air to reach the stopper 43 during the production of the plastic container 11 in order to make it hollow.

    [0040] FIGS. 1 and 2 show an embodiment variant in which the opening 29 is provided at the end of a tapering extension 47. The extension 47 makes it particularly easy to pour the container contents into a further container. As a result of the extension 47, the production of a 2-component mixture in the further container is possible without spillage of the container contents. Furthermore, FIGS. 1 and 2 show that the container 11 can be a semi-finished product. The latter is filled with a product at the open end and the container is converted to a tube at the open end by welding.

    [0041] FIG. 7 shows a tube 11 with a disposable closure, which is free of a closure element 43. In this embodiment, the second end 23 of the holding strip 19 can extend as far as the center of the upper edge 33.

    [0042] A maximum length of the holding strip 19 is achieved by the holding strip extending along all free edges 33, 35, 37, 39. As a result, the length of the holding strip 19 that enables particularly simple operation of the disposable closure and all additional functions, such as the re-closure, can be realized by the design of the blow mold.

    [0043] As the figures show, the plastic container 11 can be a tube, a tube in the form of a bag or a canister. This enumeration is exemplary and therefore not exhaustive. In the case of the canister, as shown in FIG. 6, the rotary knob closure 17 serves to close a vent opening 15.