Plastic preform and process for the manufacturing thereof to a polychromatic container
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-001/02
B29C-039/12
B29C-045/00
B28B-007/22
B29C-049/22
B65D-001/02
B29B-011/14
B29C-045/16
B29C-049/00
B29K-105/00
B29K-067/00
B29L-031/00
B29C-049/06
출원번호
US-0735734
(2009-02-12)
등록번호
US-8895120
(2014-11-25)
우선권정보
BE-2008/0082 (2008-02-12)
국제출원번호
PCT/BE2009/000008
(2009-02-12)
§371/§102 date
20100812
(20100812)
국제공개번호
WO2009/100506
(2009-08-20)
발명자
/ 주소
Dierickx, William
출원인 / 주소
Resilux
대리인 / 주소
Wray, James Creighton
인용정보
피인용 횟수 :
0인용 특허 :
2
초록▼
Preform for the blow moulding of a container comprising a neck section (1) including a pouring opening (20), an adjacent wall section (2) and a bottom section (3). It consists of a primary plastic raw material in a primary area (A1, A2, A3) and at least one secondary material in at least a secondary
Preform for the blow moulding of a container comprising a neck section (1) including a pouring opening (20), an adjacent wall section (2) and a bottom section (3). It consists of a primary plastic raw material in a primary area (A1, A2, A3) and at least one secondary material in at least a secondary area (B1, B2, B3) both having a mutually different coloration. Said preform is remarkable in that said bottom section (3) is composed of a multi-layer structure with primary layers composed of said primary plastic material, and additional secondary layers (6, 7, 8, 9, 10). The latter are composed of said secondary material, two surface secondary layers the one of which (6) is directed outwardly respective the preform, whereas the other one (10) is directed inwardly, and an intermediate secondary layer between them (7, 8, 9), which constitutes a core layer, which is located between two said primary layers. Said preform is in one single piece, the transition (Z1, Z2) from said primary to said secondary material being seamless and uninterrupted. The invention further relates to a manufacturing method of said preform.
대표청구항▼
1. Preform for the blow moulding of a container comprising a pouring opening, a neck section, an adjacent wall section and a bottom section opposite to the neck section as supporting base of the produced container, wherein the adjacent wall section of the preform is composed of a primary area, and w
1. Preform for the blow moulding of a container comprising a pouring opening, a neck section, an adjacent wall section and a bottom section opposite to the neck section as supporting base of the produced container, wherein the adjacent wall section of the preform is composed of a primary area, and wherein the bottom section forms at least one secondary area, wherein said primary area comprises a primary plastic material, said at least one secondary area having at least one secondary material, said primary and secondary areas having a mutually different coloration, wherein at least a part of said bottom section is composed of a multi-layer structure having primary layers composed of said primary plastic material which is colored, and secondary layers composed of the said at least one secondary material, which is colored differently than the primary layers, wherein the bottom section multi-layer structure has two surface layers, one of the two surface layers is directed outwardly respective the preform, whereas the other one of the surface layers is directed inwardly, with the secondary layers located in between, thereby constituting core layers, which are located between two said primary layers, and in that said preform consists in one single piece, thereby producing special color effects in the container and contents of the container blow molded from the preform. 2. Preform according to claim 1, wherein at least one of the areas is opaque and/or translucent, wherein it is coloured, and/or wherein said secondary area is opaque and/or translucent and said secondary area is limited to the bottom section of the preform, and/or wherein at least said primary area is transparent and/or not coloured. 3. Preform according to claim 1, wherein the transition between said areas of the preform further comprises a separation line, or wherein said areas are separated by a transition zone with a weaker contrast when compared to the one between the primary and secondary areas. 4. Preform according to claim 1, wherein at least one of said additional secondary layers is composed of a mixture of plastic as said at least one secondary material with a colour dye. 5. Preform according to claim 1, wherein at least one secondary material is the same as said primary plastic material, and/or wherein said core layer has a thickness up to half of the bottom thickness. 6. Preform according to claim 1, wherein said core layer extends from the bottom up to at least the same extent as said inner layer or outer layer, or wherein said core layer extends from the bottom to a height above said inner layer or outer layer. 7. Preform according to claim 1, wherein at least one of said materials comprises additives, which have a neutralizing action on reagents with an adverse effect on the product to be contained in the container, wherein an active or passive barrier is formed in the wall of the preform. 8. Preform according to claim 1, wherein the preform is a container intended for containing products therein that are sensitive to radiation and light sensitive food and dairy products, wherein said preform is opaque over a whole extent thereof, wherein plastic additives is incorporated to generate said opaque appearance, so as to protect the inner space thereof which is delimitated by it against external radiation. 9. Preform according to claim 1, further comprising an intermediate layer between the primary layers, and wherein at least one of the intermediate layers comprises a fluid or a liquid. 10. A preform according to claim 1, blown by blow moulding into a container wherein the container has a coloration density, which is such that the container is transformed from opaque to transparent and/or wherein the container presents polychroism at least locally. 11. A preform blown into the container according to claim 10, wherein the container is filled with a light scattering medium. 12. A preform blown into the container according to claim 11, wherein said container is placed in artificial light. 13. Preform according to claim 9, wherein at least one of said fluid or liquid is composed of polymer bio-aggregate which is composed of cells and/or cell products which are worked in a polymer. 14. Preform according to claim 3, wherein said transition zone has a width that is substantially constant. 15. Preform according to claim 3, wherein said separation line or transition zone extends perpendicularly to a longitudinal axis of the perform. 16. Preform according to claim 3, wherein the colouring within each of said first and second areas is substantially uniform. 17. Preform according to claim 1, wherein the transition from said primary area to said secondary area is seamless. 18. Preform for the blow moulding of a container comprising a pouring opening, a neck section, an adjacent wall section, and a bottom section opposite to the neck section as supporting base of the produced container, wherein the preform is composed of a primary area, and at least one secondary area, wherein said primary area consists of a primary plastic material, said at least one secondary area consisting of at least one secondary material, wherein said primary and secondary areas have a mutually different coloration, wherein at least a part of said bottom section is composed of a multi-layer structure having primary layers composed of said primary plastic material, and additional secondary layers composed of the said at least one secondary material, which include two surface layers the one of which is directed outwardly respective the preform, whereas the other one is directed inwardly, with an intermediate secondary layer located in between, thereby constituting a core layer, which is further located between two said primary layers, and wherein said preform consists in one single piece, the transition from said primary to said secondary area or areas being seamless, and wherein the primary material constitutes the complete volume of the wall and neck section. 19. Method for injection moulding the preform of claim 1, the method comprising: forming on said preform a neck section including a pouring opening, an adjacent wall section and a bottom section opposite to the neck section with which to form a supporting base of the container, wherein the moulding comprises the following steps: b) first injecting the secondary material, which solidifies on the cold surfaces of a mould in an outer layer and of a core in an inner layer in the bottom section of said preform;c) then injecting the primary material, which flows to the wall section and the neck section constituting substantially the complete volume of said wall and neck sections and two layers in the bottom section, in contact with the secondary material already solidified andd) finally injecting the secondary material, filling up the remaining volume in the bottom section, constituting a core layer in said bottom section. 20. A method comprising forming a preform for blow moulding of a container, further comprising forming a pouring opening, a neck section, an adjacent wall section and a bottom section opposite to the neck section as supporting base of the container, forming the adjacent wall section of the preform with a primary area, and forming the bottom section with at least one secondary area, said primary area having a primary plastic material, and the at least one secondary area having at least one secondary material, the primary and secondary areas having a mutually different coloration, wherein at least a part of said bottom section is formed of a multi-layer structure having primary layers composed of said primary plastic material which is colored, and secondary layers composed of the said at least one secondary material, which is colored differently than the primary layers, wherein the bottom section multi-layer structure has two surface layers, one of the two surface layers is directed outwardly respective the preform, whereas the other one of the surface layers is directed inwardly, with the secondary layers located in between, thereby constituting core layers, which are located between two said primary layers, and in that said preform consists in one single piece, thereby producing special color effects in the container and contents of the container blow molded from the preform. 21. Method according to claim 20, further comprising forming a tertiary material before a final stage of forming the secondary material, so that said tertiary material constitutes an intermediate layer in said wall section. 22. Method according to claim 21, wherein a predetermined quantity of the primary material is injected in a hollow mould space, and a predetermined quantity of the secondary or tertiary material is injected in the injected primary material in said hollow mould space before formation of a core, wherein the secondary or tertiary material is incorporated which is different from said primary material, wherein the injection in said hollow mould space is a parallel injection together with a part of said primary material, in that when injecting in parallel in the region of the injection aperture of said hollow mould space, said secondary or tertiary material is injected outwardly from said preform and said primary material is injected inwardly with respect hereto. 23. Method according to claim 22, wherein at least one of said materials injected incorporates living material and is produced by a method comprising the following steps: a) a polymer is selected;b) a set of organisms is selected from among cells, living organisms and/or cell products andc) aggregates are formed by working said cells, living organisms and/or cell products in said polymer resulting in the formation of a polymer-bio aggregate,wherein work is carried out at the working temperature range taken from a selected temperature interval, the lower limit whereof may be set at substantially 100° C. under standard pressure conditions, at one atmosphere. 24. Method according to claim 20, wherein the primary material comprises PET as the primary material. 25. Method according to claim 20, wherein a quantity of the primary material is slightly reduced and a quantity of the secondary material formed in the final step is increased, so that the secondary material layer extends further in the wall section. 26. Method according to claim 20, wherein prior to the forming, a predetermined amount of additives is added to one of the primary and secondary materials, thereby providing a neutralizing effect on undesirable influences.
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이 특허에 인용된 특허 (2)
Beck Martin H. (Amherst NH) Caldicott Robert (Nashua NH) Muszynski John H. (Auburn NH), Coinjection molding of decorative preforms and containers produced from such preforms.
De\ath Roderick M. (Wantage GBX) Fairchild ; deceased Brian (late of Haywards Heath GBX by Angela J. Fairchild ; personal representative) Flude Ian (Wantage GBX), Multi-cavity, co-injection molding apparatus.
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