Method for manufacturing a sealable bag having an integrated tray for use in vacuum packaging
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B29D-007/001
B65D-030/008
출원번호
US-0794369
(2004-03-04)
발명자
/ 주소
Wu,Hongyu
Albritton,Charles Wade
Brakes,David
출원인 / 주소
Tilia International, Inc.
대리인 / 주소
Perkins Coie LLP
인용정보
피인용 횟수 :
15인용 특허 :
169
초록▼
A method for manufacturing a bag for use in vacuum packaging comprises forming a first panel including a tray for retaining contents within the bag and a second panel. Optionally, the tray can include a plurality of ridges or protuberances for suspending contents such that liquid can collect in the
A method for manufacturing a bag for use in vacuum packaging comprises forming a first panel including a tray for retaining contents within the bag and a second panel. Optionally, the tray can include a plurality of ridges or protuberances for suspending contents such that liquid can collect in the tray. Each panel comprises a gas-impermeable base layer and a heat-sealable inner layer molded from melt-extruded resin. The first panel is overlapped with the second panel, and three of four edges of the panels are heated such that the inner layers bond at the heated edges. This description is not intended to be a complete description of, or limit the scope of, the invention. Other features, aspects, and objects of the invention can be obtained from a review of the specification, the figures, and the claims.
대표청구항▼
The invention claimed is: 1. A method of manufacturing a bag adapted to receive an article, comprising: rotating a first roller having a plurality of recesses that can define one or more trays including a plurality of protuberances, wherein the one or more trays each have raised walls at outer edge
The invention claimed is: 1. A method of manufacturing a bag adapted to receive an article, comprising: rotating a first roller having a plurality of recesses that can define one or more trays including a plurality of protuberances, wherein the one or more trays each have raised walls at outer edges for restricting movement of the article; rotating a second roller adjacent to the first roller, said second roller can feed a first film adjacent to the first roller; continuously applying a molten material between the first roller and the film; said molten material filling the recesses of the first roller, and said molten material and film moving between the first roller and the second roller forming a first panel with a plurality of receptacles; forming a second panel; and mating the first panel to the second panel in order to form a bag. 2. The method of claim 1, further comprising: using a gas impermeable material for the film; and using a heat sealable material for the molten material. 3. The method of claim 2, wherein the first panel is formed such that when the article is positioned within the tray, the article is supported by the plurality of protuberances. 4. The method of claim 2, wherein the first panel is formed such that when the article is positioned within the tray, the article is supported above a base of the at least one tray. 5. The method of claim 1, wherein said first roller includes a peripheral surface having a first portion including the plurality of recesses for defining the one or more trays including the plurality of protuberances. 6. A method for manufacturing a bag adapted to receive an article, comprising: feeding a first gas-impermeable film to a first nip formed by a first cooling roll and a first laminating roll, the first cooling roll having a plurality of cavities for forming at least one tray; wherein the at least one tray has at least one raised wall at an outer edge for restricting movement of the article; continuously extruding resin such that the resin fills the first nip and the plurality of cavities exposed to the first nip; pressing the resin between the first cooling roll and the first laminating roll; cooling the resin such that a first inner layer having the first structure and the second structure is formed; wherein the first inner layer adheres to the first gas-impermeable film, thereby forming a first panel; feeding a second gas-impermeable film to a second nip formed by a second cooling roll and a second laminating roll, the second cooling roll having a plurality of cavities and protuberances for forming a third structure; wherein the third structure is the other of the receiving feature and the insertion feature; continuously extruding resin such that the resin fills the second nip and the plurality of cavities exposed to the second nip; pressing the resin between the second cooling roll and the second laminating roll; cooling the resin such that a second inner layer having the third structure is formed; wherein the second inner layer adheres to the first gas-impermeable film, thereby forming a second panel; overlapping the first panel with the second panel; and applying heat to a first, second, and third side of the first and second panels. 7. A method for forming a bag adapted to receive an article, the bag being partially formed between a laminating roll and a cooling roll having a plurality of cavities for forming a structure, comprising: feeding a gas-impermeable film to a nip formed by the cooling roll and the laminating roll; continuously extruding resin such that the resin fills the nip and the plurality of cavities exposed to the nip; pressing the resin between the cooling roll and the laminating roll; cooling the resin such that the resin forms the structure and adheres to the gas-impermeable film, forming a panel; folding the panel such that a first portion of the panel overlaps a second portion of the panel; applying heat to a first, second, and third side of the first and second portions such that an envelope is formed; and wherein the structure includes one or more trays having a plurality of protuberances, and the one or more trays each have raised walls at outer edges for restricting movement of the article. 8. A method for manufacturing a bag adapted to receive an article, comprising: feeding a first gas-impermeable film to a first nip formed by a first cooling roll and a first laminating roll, the first cooling roll having a plurality of cavities for forming a structure; wherein the structure is one or more trays having a plurality of protuberances; wherein the one or more trays each have raised walls at outer edges for restricting movement of the article; continuously extruding resin such that the resin fills the first nip and the plurality of cavities exposed to the first nip; pressing the resin between the first cooling roll and the first laminating roll; cooling the resin such that the resin forms the structure and adheres to the first gas-impermeable film, forming a first panel; feeding a second gas-impermeable film to a second nip formed by a second cooling roll and a second laminating roll; continuously extruding resin such that the resin fills the second nip; pressing the resin between the second cooling roll and the second laminating roll; cooling the resin such that the resin adheres to the second gas-impermeable film, forming a second panel; overlapping the first panel with the second panel; applying heat to a first, second, and third side of the first and second panels such that an envelope is formed; and wherein the structure includes one or more trays having a plurality of protuberances. 9. A method for manufacturing a bag adapted to receive an article, comprising: rotating a first cooling roll at a first rate, the first cooling roll including a plurality of cavities for forming a structure; wherein the structure includes one or more trays having a plurality of protuberances; where the one or more trays each have raised walls at outer edges for restricting movement of the article; rotating a first laminating roll at a second rate; introducing a first film to a first nip between the first cooling roll and the first laminating roll; continuously extruding molten material to the first nip; pressing the molten material between the first cooling roll and the first film such that the molten material fills the plurality of cavities exposed to the first nip; cooling the molten material such that a first inner layer is formed; wherein the first inner layer includes the structure; wherein the first inner layer adheres to the first film, thereby forming a first panel; rotating a second cooling roll at a third rate; rotating a second laminating roll at a fourth rate; introducing a second film to a second nip between the second cooling roll and the second laminating roll; extruding molten material to the second nip; pressing the molten material between the second cooling roll and the second film; cooling the molten material such that a second inner layer is formed; wherein the second inner layer adheres to the second film, thereby forming a second panel; overlapping the first panel with the second panel; and applying heat to a portion of a periphery of the first and second panels such that the first panel and the second panel form an envelope. 10. The method of claim 9, wherein the second rate is an integer multiple of the first rate and the fourth rate is an integer multiple of the third rate. 11. The method of claim 9, wherein the first film and the second film comprise at least one layer. 12. The method of claim 11, wherein the at least one layer comprises a gas-impermeable material. 13. The method of claim 12, wherein the gas-impermeable material is one of polyester, polyamide, ethylene vinyl alcohol, and nylon. 14. The method of claim 9, wherein the molten material is polyethylene. 15. The method of claim 9, wherein a thickness of the first inner layer is determined by the size of the first nip and the thickness of the second inner layer is determined by the size of the second nip. 16. The method of claim 9, wherein the structure is formed such that when the article is positioned within the tray, the article is supported by the plurality of protuberances. 17. The method of claim 9, wherein the structure is formed such that when the article is positioned within the tray, the article is supported above a base of the at least one tray.
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