Food or edible material: processes – compositions – and products – Packaged or wrapped product – Package containing separate noncoated or laminated interior...
Reexamination Certificate
1999-08-27
2001-02-06
Drodge, Joseph W. (Department: 1723)
Food or edible material: processes, compositions, and products
Packaged or wrapped product
Package containing separate noncoated or laminated interior...
C426S129000, C426S133000, C053S432000, C206S557000
Reexamination Certificate
active
06183790
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to modified atmosphere packages for storing food. More particularly, the invention relates to a modified atmosphere package for extending the shelf life of raw meats or other food.
BACKGROUND OF THE INVENTION
Containers have long been employed to store and transfer perishable food prior to presenting the food at a market where it will be purchased by the consumer. After perishable foods, such as meats, fruits, and vegetables, are harvested, they are placed into containers to preserve those foods for as long as possible. Maximizing the time in which the food remains preserved in the containers increases the profitability of all entities in the chain of distribution by minimizing the amount of spoilage.
The environment around which the food is preserved is a critical factor in the preservation process. Not only is maintaining an adequate temperature important, but the molecular and chemical content of the gases surrounding the food is significant as well. By providing an appropriate gas content to the environment surrounding the food, the food can be better preserved when maintained at the proper temperature or even when it is exposed to variations in temperature. This gives the food producer some assurance that after the food leaves his or her control, the food will be in an acceptable condition when it reaches the consumer.
Modified atmosphere packaging systems for one type of food, raw meats, exposes these raw meats to either extremely high levels or extremely low levels of oxygen (O
2
). Packaging systems which provide extremely low levels of oxygen are generally preferable because it is well known that the fresh quality of meat can be preserved longer under anaerobic conditions than under aerobic conditions. Maintaining low levels of oxygen minimizes the growth and multiplication of aerobic bacteria. Heretofore, low-level oxygen systems, such as the systems proposed in U.S. Pat. No. 3,574,642 to Weinke and U.S. Pat. No. 5,115,624 to Garwood, have obtained extremely low levels of oxygen by relying upon oxygen evacuation techniques.
In typical prior art packaging systems, a package composed of flexible or rigid gas barrier materials is loaded into an evacuation chamber. The package in the evacuation chamber is subjected to a vacuum which removes as much of the gases surrounding the package as possible. At this point the package is sealed. After the evacuated package is sealed, the raw meat either can be maintained in a “zero” atmosphere environment (commonly referred to as vacuum packaging) or can be refilled with a gas or mixture of gases to provide a modified atmosphere environment. To provide a modified atmosphere environment, the air-evacuated package is typically filled with a mixture of gases consisting of about 30 percent carbon dioxide (CO
2
) and 70 percent nitrogen (N
2
). Refilling the air-evacuated package with such a mixture of gases is believed to suppress the growth of anaerobic bacteria. The meat in the modified atmosphere package takes on a less desirable purple-red color which few consumers would associate with freshness. This purple-red color, however, quickly “blooms” to a bright red color generally associated with freshness when the package is opened to oxygenate the fresh meat by exposure to air. The package is typically opened immediately prior to display of the fresh meat to consumers so as to induce blooming of the fresh meat just prior to display to the consumers.
Low-level oxygen systems relying upon evacuation techniques to diminish oxygen levels suffer from several disadvantages. For example, such systems operate at exceptionally slow speeds because they require the use of an evacuation device along the packaging line. The evacuation process is time-consuming. Typically, only about four to six evacuated packages can be prepared on a packaging line in one minute. In addition, the evacuation techniques render it difficult to remove any oxygen within a previously wrapped package such as an overwrapped meat tray. The trapped oxygen raises the residual oxygen level in the package and can also cause billowing and subsequent damage to the package during evacuation.
A need therefore exists for a modified atmosphere package and a system for making that package which overcome the aforementioned shortcomings associated with existing modified atmosphere packages and existing systems for making those packages.
SUMMARY OF THE INVENTION
Briefly, the present invention is directed to a new and improved modified atmosphere package for extending the shelf life of food, especially raw meats. Moreover, the present invention is directed to a new and improved modified atmosphere packaging system for producing the foregoing packages which operates at significantly higher speeds than prior art systems and which reduces the oxygen level in the packages without the use of time-consuming evacuation techniques. The packaging system effectively extends the allowable time period between cutting and purchase of retail cuts of raw meat. The raw meat can be cut and packaged several weeks prior to being purchased at the store and yet remains fresh during this time period.
The modified atmosphere package maintains an appropriate contained atmosphere around food being contained therein when stored in an ambient environment. A modified atmosphere packaging system and method creates a modified atmosphere in the package. In one embodiment, the modified atmosphere package includes an inner package and an outer package. The inner package is composed at least partially of a polymeric material substantially permeable to oxygen, while the outer package is composed of a polymeric material substantially impermeable to oxygen. After a food product such as raw meat is placed within the inner package, the inner package may be flushed with a desired mixture of gases to substantially remove oxygen from the inner package. The flushed inner package is then wrapped and inserted into the outer package without sealing the outer package. Next, the outer package is flushed with the desired mixture of gases to substantially remove oxygen from the outer package. After flushing the outer package, the outer package is sealed. An oxygen scavenger is provided in the modified atmosphere package to substantially absorb any residual oxygen within the package. The oxygen scavenger is preferably activated with an oxygen uptake accelerator to increase the rate at which the residual oxygen is absorbed.
The above summary of the present invention is not intended to represent each embodiment, or every aspect of the present invention. This is the purpose of the figures and detailed description which follow.
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pa
DelDuca Gary R.
Deyo Alan E.
Luthra Vinod K.
Wu Wen P.
Drodge Joseph W.
Jenkens & Gilchrist
Pactiv Corporation
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