IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0803845
(2010-07-08)
|
등록번호 |
US-8794487
(2014-08-05)
|
발명자
/ 주소 |
- Maas, Wilhelmus Johannes Joseph
- Van Wijk, Dominicus Jan
- Snijders, Josephus Cornelius
|
출원인 / 주소 |
- Dispensing Technologies B.V.
|
대리인 / 주소 |
Kramer Levin Naftalis & Frankel LLP
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
11 |
초록
▼
A composite container, comprising a form-retaining outer container and a flexible inner container is presented. The inner container comprises a dispensing opening and can be mounted in a neck of the outer container, and the inner container is further connected to the outer container by an adhesive o
A composite container, comprising a form-retaining outer container and a flexible inner container is presented. The inner container comprises a dispensing opening and can be mounted in a neck of the outer container, and the inner container is further connected to the outer container by an adhesive or weld connection over a portion of its periphery. The adhesive or weld connection can take the form of a ring adhesion or weld extending transversely to a central longitudinal axis of the container, or can cover the entire surface area of a defined portion of the respective inner container and outer container walls, such as, for example, the upper one-half of the container. The adhesion or weld can be substantially permanent, or alternatively, the adhesive or weld connection can be adapted to detach in controlled manner under the influence of pressures occurring in the container. Additionally, a method for manufacturing such a composite container is also presented, including forming a form-retaining outer container pre-form comprising a neck, forming a flexible inner container pre-form comprising a dispensing opening, inserting the inner container pre-form into the outer container pre-form and fixing said inner container pre-form to the neck of the outer-container pre-form.
대표청구항
▼
1. A composite container, comprising: a form-retaining outer container comprising a neck;at least one flexible inner container comprising a dispensing opening, said dispensing opening being mounted in the neck of the outer container,wherein the at least one inner container is connected over at least
1. A composite container, comprising: a form-retaining outer container comprising a neck;at least one flexible inner container comprising a dispensing opening, said dispensing opening being mounted in the neck of the outer container,wherein the at least one inner container is connected over at least a part of its upper surface area to a corresponding upper surface area of the outer container, via an adhesive or weld connection,wherein a lower portion of the inner container is not connected to a side wall of the outer container, and is free to move upwards under a pressure,and wherein, in operation, in response to an overpressure developed by a displacing medium introduced between the portions of the inner container and the outer container that are not connected, said not connected portion of the inner container is pushed upwards in a piston type motion, so as to fold over the upper portion of the inner container, said upper portion of the inner container remaining connected to the outer container. 2. The composite container of claim 1, wherein the connection is adhesive, and is formed by spraying or applying glue to the said at least a part of the surface area. 3. The composite container of claim 1, wherein said connection provides an air-tight seal. 4. The composite container of claim 1, wherein the outer surface of the inner container and/or the inner surface of the outer container is recessed. 5. The composite container of claim 1, wherein the at least one inner container is connected to the outer container by a portion of its outer wall being glued to a corresponding portion of the inner wall of the outer container. 6. The composite container of claim 1, further comprising a power pack, said power pack supplying a displacing medium to the container. 7. The composite container of claim 6, wherein the displacing medium is one of air, water, a gas, a mixture of gases, and a liquid. 8. The composite container of claim 6, wherein, in operation, the displacing medium is introduced between non-connected portions of the inner container and the outer container. 9. The composite container of claim 6, wherein, in operation, under pressure developed by the displacing medium, a portion of the inner container not connected to the outer container is pushed upwards in a piston type motion. 10. The composite container of claim 9, wherein said portion of the inner container not connected to the outer container folds inside itself so that an inner wall of the portion of the inner container not connected to the outer container substantially covers an inner wall of a portion of the inner container that is connected to the outer container. 11. The composite container of claim 1, wherein a non-stick coating is applied between the inner container and the outer container where they are not connected. 12. The composite container of claim 1, wherein a secondary inner container is provided inside the inner container. 13. The composite container of claim 12, wherein in operation two products are dispensed, a first product form the inner container, and a second product from the secondary inner container. 14. The composite container of claim 13, wherein the first product is less viscuous than the second product. 15. The composite container of claim 1, wherein the inner container and the outer container are each pre-formed by injection-molding and wherein after the adhesive has been applied, are brought into their final form by blow molding. 16. The composite container of claim 1, wherein the inner container and the outer container are each pre-formed by injection-molding and wherein after blow molding are brought to their final form by welding the inner container to the outer container. 17. The composite container of claim 1, wherein the adhesive or weld connection is one of (i) essentially permanent and (ii) adapted to detach in controlled manner under the influence of pressures occurring in the container. 18. A method for manufacturing a composite container, comprising: forming a form-retaining outer container pre-form comprising a neck,forming at least one flexible inner container pre-form comprising a dispensing opening, andinserting the at least one inner container pre-form into the outer container pre-form and fixing said inner container to said neck, blow molding the combined inner container pre-form and outer container pre-form;non-releasably connecting the inner container pre-form and outer container pre-form over at least a part of their upper surface area via adhesion or welding;leaving a lower portion of the inner container pre-form not connected to a corresponding lower portion of a side wall of the outer container pre-form,said lower portion of the inner container arranged to move uniformly upward under an overpressure so that the interior portion of the inner container not connected to the outer container substantially covers the interior portion of the inner container that is connected to the outer container;andproviding an opening in the outer container, arranged to connect to an overpressure source, said opening in fluid communication with a gap between the lower portions of the inner container and the outer container. 19. The method of claim 18, wherein the inner container pre-form is connected to the outer container pre-form via an adhesive, and wherein said adhesive is sprayed onto at least one of (i) the outer surface of the inner container pre-form and (ii) the inner surface of the outer container pre-form, prior to the insertion of the inner container perform into the outer container pre-form. 20. The method of claim 19, wherein the composite container pre-form is blow molded to reach its final size. 21. The method of claim 20, wherein when said composite container pre-form is blow molded the adhesive spreads between the inner container and the outer container throughout said at least a part of their upper surface area as a thin layer to form an air tight seal. 22. The method of claim 21, wherein in said blow molding the inner container and outer container are pressed together under pressure. 23. The method of claim 22, wherein said pressure is between 25 and 40 bar. 24. The method of claim 18, wherein said adhesion or welding is one of (i) essentially permanent and (ii) adapted to detach in controlled manner under the influence of pressures occurring in the container. 25. The method of claim 18, wherein at least one of the outer container pre-form and the inner container pre-form are recessed. 26. The method of claim 25, wherein an adhesive is evenly distributed throughout the recess, during placing of the inner container pre-form into the outer container pre-form and blowing of the pre-forms to full size. 27. The method of claim 18, wherein a secondary inner container pre-form is provided within the inner container pre-form.
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