US20110203222A1 - Apparatus for Domestic Use to Preserve Food, by Changing the Atmosphere in a Food Package - Google Patents
Apparatus for Domestic Use to Preserve Food, by Changing the Atmosphere in a Food Package Download PDFInfo
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- US20110203222A1 US20110203222A1 US13/127,684 US200913127684A US2011203222A1 US 20110203222 A1 US20110203222 A1 US 20110203222A1 US 200913127684 A US200913127684 A US 200913127684A US 2011203222 A1 US2011203222 A1 US 2011203222A1
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- Prior art keywords
- gas
- food
- food package
- package
- pressure
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B31/00—Packaging articles or materials under special atmospheric or gaseous conditions; Adding propellants to aerosol containers
- B65B31/04—Evacuating, pressurising or gasifying filled containers or wrappers by means of nozzles through which air or other gas, e.g. an inert gas, is withdrawn or supplied
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B25/00—Packaging other articles presenting special problems
- B65B25/001—Packaging other articles presenting special problems of foodstuffs, combined with their conservation
Abstract
The invention relates to a device (1) arranged to bring about a decreased degradation of food placed in an gas tight food package (5, 45, 49), the device comprising a gas conductor (7, 39) adapted to be connected between a gas supply (9 a , 9 b) and the food package (5, 45, 49) for changing the composition of the gas inside the food package (5, 45, 49) to a composition with food preserving qualities. The invention also relates to a use of such a device (1).
Description
- The present invention relates to a device arranged to bring about a decreased degradation of food placed in a gastight food package.
- The device comprises a gas conductor adapted to be connected between at least one gas supply and the food package for changing the composition of the gas inside the food package to a composition with food preserving qualities.
- Food may deteriorate due to several different mechanisms, such as bacterial growth, oxidation of fats, dehydration, mould etc. One method used within the food industry to prolong the durability of foods is to store the food in a gastight package and to change the composition of the gas surrounding the food to a gas with food pre-serving qualities. Such gases usually comprise mixtures of N2, O2 and CO2 with various contents depending on the food. The mechanisms behind food preservation are well known in the art. For short it can be mentioned that N2 is usually used as an inert gas for reducing the presence of other gases, such as oxygen, CO2 dissolves in the water bound in food forming carbon acid, which lowers pH and decrease growth of bacteria and mould, and O2 is used to reduce browning of for example meat.
- Several methods and devices for preserving foods by changing the composition of the gas surrounding the food are known. In DE 2005 062 962 A1, storage of pastries in an oxygen free atmosphere in gas-tight housings is shown. In JP 01153038 storage of mushrooms in containers with a mixture of CO2, N2 and air is shown, wherein the container is placed in a cold reserving chamber and the container further comprises a selectively gas permeable membrane for controlling the composition of the gas. In US 2006/0127554 A1 a method for removing oxidants from liquids is shown, wherein the liquid is first fed with a reactive gas, which is then replaced with an inert gas.
- Common for these methods and devices is that they are fairly complicated and therefore demand skilled operators when used. A correct gas composition must be selected depending on the type of food in order to optimize the storage time. Furthermore, the methods involve gases stored under high-pressure conditions, demanding both handling skill and heavy investments. The method of using a food preserving gas has therefore primarily been used by food producers while packing foods for shipment to stores, in order to increase the time available for delivery and marketing of the product.
- One object of the present invention is to further decrease the degradation of foods in order to increase the time available before consumption.
- This object is achieved with the device according to the preamble of
claim 1, which comprises a gas conductor adapted to be connected between at least a first gas supply and the food package for changing the composition of the gas inside the food package to a composition with food preserving qualities, and which is characterized in that the device is adapted to be positionable and usable in a kitchen. - Thus a consumer, and not only the industrial food producers, may store food in a food preserving atmosphere, wherein the durability of the food is increased considerably. Normal consumer behaviour concerning the handling of foods comprises that the consumer opens a food package, either for direct consumption or for cooking, which simultaneously let out any food preservative gas, and then continues to store either or both of the unused food or its cooked counterpart. Hitherto, most foods have been well preserved in an unopened package, but as soon as a consumer breaks the seal the food degrades swiftly, even if stored in a refrigerator or freezer. By using the device according to the invention the consumer may store food from an opened package or cooked food in a food preservative atmosphere, so that at least a part of the long durability date of an unopened package may be retained.
- Apart from a longer durability, the use of food preservative gas by a consumer also gives the advantage of a slower degradation of nutrition content in the food. Another advantage is in the event that the food is to be stored during a longer period than possible in a refrigerator in a normal atmosphere, but not as long as possible in a freezer. This may happen for example when preparing food boxes. In this case the consumer may store the food in a food preservative atmosphere in the refrigerator instead, so that it is not necessary to freeze the food only to be heated shortly afterwards.
- Two main prerequisites for adapting the device for use in a kitchen is that the device should be user friendly and also sufficiently small, so that the device may be positionable and used in a kitchen by the kitchen personnel. In one embodiment of the invention the device is adapted for household use, wherein the device is adapted in size, weight and shape so that the device is positionable and usable in a household kitchen. The device should then be user friendly and also sufficiently small, so that the device may be positionable and used in a household kitchen by a normal consumer. In another embodiment of the invention the device is adapted for use in a restaurant, wherein the device is adapted in size, weight and shape so that the device is positionable and usable in a restaurant kitchen.
- According to one embodiment the device comprises a gas mixture selector arranged to induce the device to select one of at least two predefined gas compositions for filling the food package. Preferably the device is arranged to allow selection of one of at least three pre-defined gas compositions for filling the food package. Preferably, each predefined gas composition is designed for preserving a specific type of food. Thus the device is adapted for filling a food package with different gas mixtures depending on the food placed in the package. Different types of foods include, but are not limited to, meat, vegetables, and pastries. According to one embodiment the gas mixture selector furthermore presents information indicating the type of food preserved by the presently selected composition to a user. Hence the user need not be skilled in the art of food preserving gases, but only needs to select the type of food in the food package and the device is adapted to fill the food package with a gas with the proper composition. Kitchen personnel or a normal consumer is un-skilled in comparison with a skilled worker within the food industry, and thus the device is hereby adapted to be used by a user without any training in the field of preservative gases. Preferably, but not necessarily, the device is arranged to allow selection of one of at the most twenty such predefined gas compositions, in order not to confuse the consumer.
- Preferably the device is also adapted to be manually operated. Preferably, the device is arranged for the consumer to manually connect and disconnect the conductor to the food package. Preferably, the device is also arranged for the consumer to manually select a gas mixture and to induce the device to begin the gas filling sequence. Automated operation usually gives a higher filling rate, but also makes the device more cumbersome, and also puts higher demands on training. A device adapted for household use has not the same need of a high production rate, and thus a manually operated device is advantageous. Hence, the device is preferably adapted so that the capacity of the device is lower than within the food industry. According to one embodiment the device is adapted for filling food packages in batches. Preferably the batch size is no more than three food packages simultaneously, and preferably no more than one food package per batch. In one embodiment the device is also arranged to be limited for filling food packages having a maximum volume of about 5 litres.
- Preferably the device is adapted for household use in that the device is adapted in size, weight and shape so that the device is positionable in a household kitchen. Preferably the device is further adapted for use in a kitchen in that the size of the device is restricted so that the device is no more than 1 meter in any dimension, preferably no more than 85 cm in any dimension. Preferably the device has a width, height and depth, which is no more than 60 cm. Thus the device may easily be positioned and used on a kitchen workbench or in a kitchen cupboard. Preferably the device is portable, so that the device may easily be moved between locations within the kitchen. Preferably the weight of the device is no more than 20 kg, preferably no more than 15 kg, and most preferably no more than 10 kg. Thus the device may easily be lifted by a user and moved about in the kitchen.
- The device is adapted to supply gas having food preservative characteristics to the interior of the food package. Preferably the device is adapted to fill the food package with a food preservative gas comprising N2 and CO2. Possibly, the gas may also contain a small content of O2, either from a gas supply within the device, or more preferably, by retaining a small amount of the previous air inside the package. Preferably the device is adapted to fill the package with the food preservative gas so that the gas surrounds the food and occupies the space around the food. Thus the gas decreases oxidation of fat and meat, decreases mould and bacterial growth, and decreases discolouring of the food. Preferably the device is adapted to fill the package with gas up to a gas pressure of at the most 2.5 atmospheres, preferably no more than 1.5 atmospheres. With food is primarily intended food for eating, such as solid foods and liquid foods as soups. The term food is not intended to include beverages, even though it may be possible to use the device for beverages as well.
- Preferably the device is shaped into one unit, and preferably also adapted to contain the gas supply. Thus there is no need for loose conductors leading from an external gas supply to the device. Preferably the device is adapted to admit connection of a gas supply in the form of a gas tube to the device. A gas tube may contain large amounts of gas in a safe manner. Furthermore, it is possible for the user to remove the gas tube from the device and bring only the gas tube to a store for refilling the gas. Preferably the device is adapted to contain two different gas supplies. Preferably the device is adapted to contain one supply of N2 and one supply of CO2. Preferably the device is shaped so that the size of the gas tubes is restricted to contain no more than 10 litres each, preferably no more than 7 litres each. Hence it is ensured that the size of the device is limited, so that the device is adapted for use in a restaurant kitchen. Preferably the device is shaped so that the size of the gas tubes is restricted to contain no more than 3 litres each, preferably no more than 1.5 litres, and most preferably no more than 1 litre each. Hence it is ensured that the size of the device is limited, so that the device is adapted for use in a household kitchen.
- According to one embodiment the device comprises a pressure sensor adapted to communicate with and to sense the pressure inside the food package. Preferably the device is adapted to fill the food package based on signals from the pressure sensor on the present pressure in the food package. The device is preferably adapted to terminate filling of the food package when the sensed pressure reaches a desired limit. According to one further embodiment the device is adapted to fill the food package with a first gas to a first pressure and with a second gas to a second pressure to form a desired mixture of gases. By using information on the first and second pressures the proportion of the first gas relative to the second gas may be estimated, so that the device may fill the food package with the proper gas composition in an efficient and simple manner.
- According to one embodiment the device is adapted for removing gas from inside the food package prior to supplying a food preservative gas to the food package. The package is most likely filled with air before treatment, and removal of the air will also remove oxygen from the interior of the package. This is important since many of the degrading processes in food are directly related to oxygen content. Also, not as much new food preservative gas is needed for filling the food package to obtain the desired compositions, and overpressure is avoided. In one embodiment at least some of the gas in the package may be removed by flushing the package with new gas.
- In one embodiment the device comprises a suction member arranged to reduce the air pressure inside the food package by use of negative pressure before filling the food package with food preservative gas. Thus there will be less waste of the food preserving gas, which will reduce costs. In one embodiment the suction member comprises a gas pump or gas fan, such as an electrical fan, for removal of the gas. In another embodiment the suction member comprises a by-pass conductor adapted to conduct gas from a gas supply to the surroundings, and a connection conductor adapted to be connected between the by-pass conductor and the interior of the food package, wherein the flow of gas through the by-pass conductor creates a negative pressure inside the food package. This ensures an inexpensive way of creating a negative pressure.
- According to one embodiment the device is adapted to remove air from inside the food package to a specified pressure so as to retain a desired amount of O2 inside the food package. For some types of food a small amount of oxygen is desired. By retaining a desired air pressure in the food package a desired amount of oxygen will be retained in the package. By subsequent filling with other food preservative gases, the proportion of oxygen will be reduced to the desired proportion.
- According to a further embodiment the device is adapted to fill the food package with gas after a first removal of air from the food package, and then to remove the produced gas mixture at least a second time from the food package in order to further reduce the content of O2. In case the first removal of air from the package cannot be performed to the desired level, a refill and a second removal of gas from the package may be performed to further reduce the oxygen content.
- According to one embodiment the device comprises an on/off-valve arranged to control the gas flow through the gas conductor. An on/off-valve is much less expensive than valves allowing a continuous range of gas flows. Thus, the use of an on/off-valve reduces the price and complexity of the device considerably. The use of an on/off-valve is possible since a device adapted for household use does not need to fill a food package with an exact and optimized gas composition, which is in a much higher demand within the food industry. Thus it is possible to use the on/off-valve, even though the valve gives less control over the gas composition. An on/off-valve is also easily operated, which is an advantage since the device is adapted to be used by unskilled users.
- According to one embodiment the device comprises a pressure reducing valve adapted to admit a flow of gas through the pressure reducing valve, such that the gas pressure after the pressure reducing valve is reduced to a gas pressure below a limit gas pressure. Thus, regardless of the present pressure in the gas supply, the same pressure will be obtained in the location after the pressure reducing valve. Hence the gas flow passing through the pressure reducing valve will also be substantially constant, wherein it is simple to appreciate the amount of gas transferred to the food package. This is important for instance if a particular mix of gases is desired. In particular, a pressure reducing valve is advantageous in case of a gas supply in the form of gas tubes, having varying pressure depending on depletion of the tubes.
- In another embodiment the device comprises a valve provided with at least one main opening and at least two sub-openings, wherein the valve is arranged to selectively allow communication between the main opening and one of the at least two sub-openings. Thus it is possible to direct the gas flow between different conductors. Preferably the valve is arranged to allow selective communication between the food package and one of at least two gas supplies at the time, wherein it is simple to estimate and control the gas mixture inside the food package.
- Preferably the conductor is adapted to be connectable and disconnectable with the food package. Preferably the conductor comprises a mouthpiece adapted to gastightly fit with the food package. Preferably the food package comprises a connecting element for connecting with the mouthpiece, which connecting element is adapted to admit communication between the conductor and the interior of the food package. Preferably the connection element comprises a valve arranged in the package.
- According to one embodiment the device is also arranged for supplying gas to a beverage container. Preferably the device is arranged for supplying gas to a bottle of beverage. Thus the device may not only supply gas for preserving food, but also for filling a bottle or other liquid container with gas. Preferably, the device then comprises a mouthpiece adapted to be connected with the beverage container, and preferably a bottle. In one embodiment the device is adapted to supply N2 to the container. N2 may for example be used in order to preserve wine, by hindering oxidation of the wine. In another embodiment the device is adapted to supply CO2 to the beverage container. CO2 may be used for carbonating a liquid, for example in order to make soda water. In a further embodiment the device is adapted for filling a liquid container with N2 in a first mode of operation and with CO2 in a second mode of operation. Thus the device may fill a liquid container with both these types of gases.
- In one embodiment the device is adapted for connection of a first gas supply for supplying N2 to the food package to the device and the gas conductor. The supply of N2 may be used both as inert gas for preserving wine and for supplying one constituent for very effective food preserving gas mixtures. The function of N2 in a food preservative gas is as an inert gas as a substitute to the presence of O2.
- In another embodiment the device is adapted for connection of a second gas supply for supplying CO2 to the food package to the device and the gas conductor. The supply of CO2 may be used both for carbonizing beverages and for supplying one constituent for very effective food preserving gas mixtures. The function of CO2 in food preservative gas is as a poison to most bacteria and mould.
- In another embodiment the device is adapted for connection of a gas supply in the form of a gas tube to the device and the conductor. The use of gas tubes as a gas supply is advantageous in that the device becomes portable and may be positioned freely inside a household kitchen. Gas tubes are also inexpensive and are easy to use and change when empty. The high internal pressure inside the gas tubes may also drive the flow of gas through the device. Preferably the device is adapted to contain the gas tubes inside the device. Hence the device can be moved easily without ensnaring hoses connecting the device with external gas tubes.
- The invention is now to be described as a non-limiting example of the invention with reference to the attached drawings.
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FIG. 1 a shows a front view of a device according to one example of the invention. -
FIG. 1 b shows a rear view of the device inFIG. 1 a. -
FIG. 1 c shows a schematic view of one example of the internal construction of the device inFIGS. 1 a-b. -
FIG. 1 d shows a schematic view of another example of the internal construction of the device inFIGS. 1 a-b. -
FIG. 2 shows a conductor with different mouthpieces adapted to different food packages. - In
FIGS. 1 a-c one example of adevice 1 according to the invention is shown. Thedevice 1 is arranged to bring about a decreased degradation offood 3 placed in agastight food package 5. To this end thedevice 1 comprises agas conductor 7 adapted to be connected between agas supply food package 5 for changing the composition of the gas inside the food package to a composition with food preserving qualities. Such gases are known in the art, and depend on a plurality of factors, such as the expected storage temperature, the type of food, etc. In general food preservative gases comprises a mixture of N2, CO2, and O2. - In this example the
device 1 is adapted to be used in a kitchen. In particular, the device is adapted to be used in a household kitchen. The device is thus adapted in size and shape so that the device is positionable and usable in the household kitchen. In this example thedevice 1 comprises ahousing 11 arranged to contain thedevice 1. Thehousing 11 is in turn arranged with a shape and size, so that thedevice 1 is positionable in a kitchen, in this example in a household kitchen. In particular thedevice 1 andhousing 11 are shaped so that the device is positionable on a kitchen workbench or in a kitchen cupboard. - In this example the size of the device is restricted so that the
housing 11 is no more than 1 meter in any dimension, preferably no more than 85 cm in any dimension, and most preferably no more than 60 cm in any dimension. In this example thehousing 11 is shaped 50 cm in height, 40 cm in width and 25 cm in depth. Thus the device may easily be positioned and used on a kitchen workbench or stored in a kitchen cupboard. In this example the device is further adapted for use in a kitchen in that the weight of the device is no more than 50 kg, preferably no more than 40 kg, and most preferably no more than 20 kg. Thus the device may easily be lifted by a user and moved about in the kitchen. The device may also easily be stored in the kitchen when not in use. - The
device 1 is adapted to supply gas having food preservative characteristics to the interior of the food package. In this example thedevice 1 is adapted to fill the food package with a food preservative gas comprising N2 and CO2. The preservative gas will surround the food and thus the gas will decrease oxidation of fat and meat, decrease bacterial growth, and decreases discolouring of the food. In this example the device is adapted to fill the food package with a preservative gas also comprising a small content of O2. A small content of oxygen will decrease purely anaerobic degradation processes. In this example the device is arranged to retain some of the air in the package in order to also retain some oxygen. In another example thedevice 1 may instead comprise an oxygen supply. The device is further arranged to fill the food package with gas up to a pressure of at the most 1.5 atmospheres. - The
device 1 is adapted to admit connection of at least one gas supply in the form of agas tube gas tube device 1. In this example thedevice 1 is arranged to hold and connect twogas tubes device 1, so that the device may fill the food package with a mixture of two gases. In this example the device is arranged to hold and connect onegas tube 9 a containing N2 and anothergas tube 9 b, containing CO2. Thus thedevice 1 is arranged to fill the food package with a preservative gas containing a mixture of at least N2 and CO2. The gas tube mounting 11 is adapted to allow removal of thegas tubes device 1 is arranged to comprise the at least onegas tube - The
housing 11 is further shaped to allow harbouring of thegas supply housing 11 is adapted to contain thegas tubes device 1 is therefore portable, so that the device may easily be moved between locations within the kitchen. Thegas tubes gas tubes housing 11 can remain small, so that the device is adapted to be positioned and used in a house-hold kitchen. - The
device 1 is arranged to be manually operated, and to fill food packages in batches. The batch size is smaller than three food packages simultaneously, and in this example the device is arranged to fill only one food package per batch. In this example thedevice 1 is also arranged to be limited for filling food packages having a maximum volume of about 5 litres. Thus thedevice 1 may be small in size. - The
device 1 further comprises afill control 13 arranged to induce thedevice 1 to fill a food package when actuated by a user. In this example thefill control 13 comprises a keypad with buttons for con-trolling the device. Thus the device is easier to use, so that an un-skilled user may use the device. The device further comprises agas mixture selector 15 arranged to induce the device to select one of at least two predefined gas compositions for filling the package. In this example the gas mixture selector is arranged to allow filling of a food package with four different gas compositions. Each predefined gas mixture is designed for preserving a specific type of food. Thus, by selecting the proper predefined gas mixture, a better preservative function may be achieved. Since the gas mixtures are predefined it is not necessary for the user to know anything about the contents or properties of the gas mixtures, but it is sufficient to select a gas composition marked, for example, with the type of food, which is to be packed and preserved. - The
device 1 is further arranged for supplying gas to a bottle with a beverage. The beverage may be any type of drinkable liquid suitable to be surrounded by a gas or having a gas pressed into the beverage. In this example thedevice 1 is in one state adapted to fill a beverage container with CO2. Thegas mixture selector 15 is then simultaneously provided with a selection for a gas mixture predominantly comprising CO2-gas. The CO2 gas is pressed into the beverage so that the beverage becomes carbonized. In this example the device is further arranged to fill a beverage container with N2. Thegas mixture selector 15 is then simultaneously provided with a selection for a gas mixture predominantly comprising N2-gas. The inert N2 gas is filled in the space above the beverage, wherein oxidation of the beverage is prevented. This is particularly useful for example for wine. Naturally, a bottle may also be filled with any of the available pre-defined mixtures of N2, CO2 and possibly also O2. - In
FIG. 1 c one example of the inner construction of thedevice 1 is shown schematically. Thedevice 1 comprises the two gassupply gas tubes conductor 7 for connecting the gas supply tubes with thepackage 5, as previously described. Thedevice 1 also comprises a firstgas supply conductor 17 adapted to connect thefirst gas supply 9 a with theconductor 7, and a secondgas supply conductor 19, adapted to connect thesecond gas supply 9 b with theconductor 7. Henceconductor 7 is adapted to conduct the gas from both the first and the second gas supplies 9 a, 9 b to thepackage 5. In the event that a third or fourth gas supply is added, the device could comprise a corresponding third and fourth gas supply conductors joining intoconductor 7. - The device comprises a first
pressure reducing valve 21 arranged between thefirst gas supply 9 a and the firstgas supply conductor 17, and adapted to admit a flow of gas through the pressure reducing valve, such that the gas pressure after the pressure reducing valve is reduced to a gas pressure below a limit gas pressure. The pressure reducing 21 valve is further selected so that the limit gas pressure is lower than the gas pressure of the gas supply, wherein a substantially constant gas pressure is achieved. Thus, regardless of the pre-sent pressure in thegas tube 9 a, the same gas flow will pass through the pressure reducing valve, meaning that the amount of gas supplied is dependent on time alone. Thedevice 1 further comprises a corresponding secondpressure reducing valve 23 arranged between thesecond gas supply 9 b and the secondgas supply conductor 19. Hence the partial pressures of both the first and the second gases in theconductor 7 are known. Thus the contents of the gases within theconductor 7 is also known, so that the package may be filled with the desired gas mixture. In some instances, thepressure reducing valves - The device comprises a first on/off-
valve 25 arranged to control the gas flow through the firstgas supply conductor 17, and thus also through thegas conductor 7. An on/off-valve is much less expensive than a proportional valve, and is also much easier to operate. The device also comprises a second on/off-valve 27 arranged to control the gas flow through the secondgas supply conductor 19, and thus also through thegas conductor 7. The device also comprises acontrol module 29 arranged to control the operation, and thus the state, of the two on/off-valves control module 29 is also arranged to control the contents of the different gases in the mixture of gases, depending on the state of thegas selector 15, by opening the on/off-valves during different lengths of time. - The
device 1 is arranged to reduce the air pressure inside thefood package 5 before supplying a food preservative gas to the food package. This reduces the amount of air in the package, and therefore also unwanted gases present in the air, such as oxygen. Thus a smaller amount of new food preservative gas is needed for filling the food package to desired compositions. - In this example the
device 1 comprises asuction member 31 arranged to reduce the air pressure inside the food package. The suction member may comprise a pump, fan or similar, but in this example the suction member comprises a by-pass conductor 33 leading gas from a gas supply to the surroundings, and a connectingconductor 35 connecting the by-pass conductor 33 with theconductor 7, so that the by-pass conductor is also connected with thepackage 5. When letting gas flow through the by-pass conductor a negative pressure is created, wherein gas will be removed from the package. Thedevice 1 also comprises a by-pass valve 37, for closing or opening the by-pass conductor. In yet another example the air may instead be removed from the package by blowing gas into the package and allowing the previous air in the package escape through a valve provided in the package, or by some other escape route. - In
FIG. 1 d a second, schematic example of the interior workings of thedevice 1 inFIG. 1 a-b is shown. As before, thedevice 1 comprises first and second gas supplies 9 a, 9 b arranged ongas supply mountings 12, and connected with first 17 and second 19 conductors via first 21 and second 23 pressure reducing valves, respectively. The device further comprises aconductor 7 connected with amouthpiece 53 for connection with afood package 5 containingfood 3. - The
device 1 further comprises a four-way valve 59 provided with a main opening and three sub-openings. The openings are adapted to be connected with one gas conductor each. In this example the first andsecond conductors conductor 7 leading to the food package is connected with the main opening. The four-way valve 59 is arranged to allow selective communication between the main opening and one of the three sub-openings. Hence the four-way valve is arranged for selecting the gas for filling thefood package 5, by allowing communication between a desiredgas supply conductor 7. Thus, in a first state the four-way valve 59 is arrange to allow communication between thefirst conductor 17 and theconductor 7, allowing filling the food package with nitrogen, and in a second state between thesecond conductor 19 and theconductor 7, allowing filling thefood package 5 with carbon dioxide. - The device also comprises a
suction member 65 in the form of a vacuum pump, and asuction conductor 67 connecting thesuction member 65 with the third sub-opening in the four-way valve 59. In a third state the four-way valve 59 is arranged to allow communication between theconductor 7 and thesuction conductor 67, wherein thesuction member 65 is arranged to remove gas from thefood package 5. - The
device 1 also comprises an on/off-valve 60 arranged to allow or shut off the gas flow through theconductor 7. Thus in a first, open state the on/off-valve 60 is arranged to allow communication between thedevice 1 and thefood package 5, while in a second, closed state the on/off-valve is arranged to prevent communication between thedevice 1 and thefood package 5. - The device further comprises a
control module 61 arranged to receive instructions from akeypad 63, which in turn is adapted to receive input instructions from a user. Thekeypad 63 and thecontrol module 61 are adapted to receive information from the user on the type of food which is present in the food package to be filled. Thecontrol module 61 is arranged to control the operation of the four-way valve 59, the on/off-valve 60, and thesuction member 65 based on the received instructions from thekeypad 63 and the type of food. - In an alternative example a touch screen could be provided instead of or in conjunction with the
keypad 63. A touch screen is adapted to both display information and to receive input from the user, wherein it may be more intuitively operated by the user. Preferably the touch screen is arranged to display the type of food best preserved by the presently selected predefined gas mixture. - The device also comprises a
pressure sensor 69 arranged to sense the gas pressure inside the food package. Thecontrol module 61 is further arranged to control the operation of the four-way valve 59, the on/off-valve 60, and thesuction member 65 based on the signals from thepressure sensor 69. In this example thecontrol module 61 is arranged to turn the filling of the food package with food preservative gas off, when the pressure sensor senses a sufficient pressure in thepackage 5. - In a first example of operation of the device a user first manually connects the
conductor 7 to afood package 5 containing food, which is to be stored in a food preserving atmosphere. Then the user enters information in the key-pad 63, for example on the type and/or amount of food in the food package, and then initiates the filling procedure. - Upon reception of the initiation signal the
control member 61 selects a suitable mix of gases for filling the food package depending on the entered type of food. The control module then set the four-way valve 59 in the third state so as to allow communication between thesuction member 65 and thefood package 5. Thecontrol member 61 then set the on/off-valve in the open state to allow communication with thefood package 5, and induces thesuction member 65 to remove gas from the interior of the food package. In this example, depending on the desired oxygen content, the removal is continued until a desired pressure is obtained inside the food package, as sensed by thepressure sensor 69. - The
control member 61 then set the four-way valve 59 to the first state for allowing communication between thefood package 5 and thenitrogen gas supply 9 a. Thefood package 5 is filled with nitrogen due to the over-pressure in thegas supply 9 a, and is continued until a desired nitrogen level is reached. The desired nitrogen level may either be estimated based on the time allowed for filling the package, since the pressure reducing valve ensures a substantially constant gas flow, or the level may be estimated based on the pressure inside the food package as measured by thepressure sensor 69. - The
control member 61 then set the four-way valve 59 to the second state for allowing communication between thefood package 5 and the carbondioxide gas supply 9 b. Thefood package 5 is then filled with carbon dioxide to a desired level depending on the desired gas mix in the same manner as when filling thepackage 5 with nitrogen, after which thecontrol member 61 controls the on/off-valve to shut off theconductor 7. The user may then disconnect theconductor 7 from thefood package 5 and remove the food package from thedevice 1. - In a second example of operation of the device, the user specifies a type of food for which low oxygen content is preferred, so that the suction member is incapable, or has trouble with, reaching the low air pressure needed. After a first removal of air from the
package 5 as in the first example above, the device fills thepackage 5 with the least expensive of the gases available other than oxygen. The device then removes the gas mixture from the package a second time. Hence the total amount of oxygen is lowered. The operation may then proceed with filling the package with nitrogen and/or carbon dioxide as required. - In the following table a number of examples of gas mixtures for different types of foods, which are predefined in the device, are given. As discernible from the examples some of the gas mixtures may be used for more than one type of food. In order not to confuse the user the
control module 61,keypad 63 or touch screen, could then present the gas mixture as three different gas mixtures associated with each food type. Alternatively the types of food having the same gas mixtures may be grouped together and be presented to the user as one single gas mixture. The table is not exhaustive and other gas mixtures for other food types may also be included. -
TABLE I Examples of food types and preferred preserving gas compositions. Type of food O2 CO2 N2 [%] Fruits and vegetables 2-8 0-20 75-100 Meals and lunchboxes 0-5 30-50 30-60 Prepared meats 0-5 30-50 50-70 Prepared poultry and game 0-5 30-50 50-70 Prepared fish and seafood 0-5 30-50 50-70 Raw fish 0-5 40-60 40-60 Hard Cheese 0-5 0-5 95-100 Soft Cheese 0-5 40-50 50-60 Bakery and pastries 0-5 60-100 0-40 Pasta 0-5 40-60 40-60 Dried foods 0-5 0-5 95-100 Liquid food and beverages 0-5 0-5 95-100 - In
FIG. 2 aconductor 39 adapted to be connected between at least one gas supply and a food package is shown. Theconductor 39 is provided with a mouthpiece mounting 41 adapted for mounting different types of mouthpieces onto theconductor 39. Depending on the type and shape of the food package or bottle to be filled, different forms of mouthpieces may be needed. By providing a mouthpiece mounting 41 the mouthpiece may be changed into an appropriate mouthpiece. - In
FIG. 2 some examples of suitable mouthpieces and corresponding packages are also shown. A first food-package 45 is box-like and made in hard plastic. The food-package comprises afirst valve 47 arranged for receiving gas and arranged for coupling with afirst mouthpiece 43, and asecond valve 48 arranged to let gas out of the package when the pressure is above 1.5 atmospheres. The second valve hence functions as a safety valve. - The
first mouthpiece 43 is furthermore adapted to be removable from the mouthpiece mounting 41. The first mouthpiece is furthermore adapted to fit thefirst valve 47 on the first food-package 45, and to fill the food-package with a food preservative gas via theconductor 39. Themouthpiece 43 is thus adapted to admit communication between theconductor 39 and the interior of the food package. In this example themouthpiece 43 comprises a sleeve adapted to snugly fit into a notch arranged round thevalve 47, so that the connection between themouthpiece 43 and thefirst valve 47 is both gastight and secure. After filling the package with food preservative gas the mouthpiece is disconnected from thevalve 47. The mouth-piece may also be disconnected from the mouthpiece mounting 41, in the event that another type of food-package is to be filled. - A second food-
package 49 comprises a bag of soft, but thick, plastic, so that the bag is gastight when closed. Asecond mouthpiece 51 comprises a long snout adapted to be inserted into thebag 49 through its opening. The bag is folded around the snout so that the connection is gastight. Since the desired pressure within the bag is not particularly high, it is possible to obtain a gastight connection by simply folding the bag around the snout. The bag may be held onto the snout either by hand or with for example a rubber band. The bag is then filled with gas through themouthpiece 51. - The invention is not limited to the examples shown above, but may be varied freely within the framework of the following claims. In particular, the term conductor is intended to cover all forms of conductors, chambers, pipes, hoses etc, having the ability to conduct gas. The term conductor is also intended to include assemblies of several connected gas conducting pieces. The food package may be made in metal, plastic, cloth, or any other suitable material, and may be either hard or soft and may or may not contain valves. A large number of different mouthpieces may be conceived for fitting with different packages or containers, such as a mouthpiece for connecting with a bottle of beverage. The device may contain a gas supply with a readymade mixture of food-preservative gas instead of two gas supplies, which need to be mixed. Furthermore the device may contain three or more gas supplies, for example an oxygen supply, and may contain any number of additional conductors, valves etc.
Claims (15)
1. A device arranged to bring about a decreased degradation of food placed in a gastight food package (5, 45, 49), the device comprising a gas conductor (7, 39) adapted to be connected between a gas supply (9 a, 9 b) and the food package (5, 45, 49) for changing the composition of the gas inside the food package (5, 45, 49) to a composition with food preserving qualities, characterized in that the device (1) is adapted in size and shape so that the device (1) is positionable and usable in a kitchen.
2. A device according to claim 1 , characterized in that the device comprises a gas mixture selector (15) arranged to induce the device to select one of at least two predefined gas compositions for filling the food package.
3. A device according to claim 2 , characterized in that each predefined gas composition is designed for preserving a specific type of food.
4. A device according to any of the claims 1 -3, characterized in that the device comprises a pressure sensor (69) adapted to communicate with and to sense the pressure inside the food package (5).
5. A device according to claim 4 , characterized in that the device is adapted to fill the food package (5) with a first gas to a first pressure and with a second gas to a second pressure to form a desired mixture of gases.
6. A device according to any of the previous claims, characterized in that the device (1) is adapted for removing gas from inside the food package (5, 45) prior to supplying a food preservative gas to the food package, wherein the device comprises a suction member (31) arranged for removing the gas from inside the food package before filling the food package with food preservative gas.
7. A device according to claim 6 , characterized in that the suction member (31) comprises a by-pass conductor (33) adapted to conduct gas from a gas supply to the surroundings, and a connection conductor (35) adapted to be connected between the by-pass conductor (33) and the interior of the food package (5, 45, 49), wherein the flow of gas through the by-pass conductor creates a negative pressure inside the food package.
8. A device according to claims 4 and 6 , characterized in that the device is adapted to remove air from inside the food package (5) to a specified pressure so as to retain a desired amount of O2 inside the food package.
9. A device according to claim 8 , characterized in that the device is adapted to fill the food package with a gas after the first removal of air from the food package (5), and then to remove the produced gas mixture at least a second time from the food package in order to further reduce the content of O2.
10. A device according to any of the previous claims, characterized in that the device comprises a valve (59) provided with at least one main opening and at least two sub-openings, wherein the valve is arranged to selectively allow communication between the main opening and one of the at least two sub-openings.
11. A device according to any of the previous claims, characterized in that the device (1) comprises an on/off-valve (25, 27) arranged to control the gas flow through the gas conductor (7, 39).
12. A device according to claim 11 , characterized in that the device comprises a pressure reducing valve (21, 23) adapted to admit a flow of gas through the pressure reducing valve, such that the gas pressure after the pressure reducing valve is reduced to a gas pressure below a limit gas pressure.
13. A device according to any of the previous claims, characterized in that the device (1) is also arranged to be able to supply gas to a beverage container.
14. Use of a device according to claim 1 , characterized in that the device (1) is used in a kitchen for filling a food package (5, 45, 49) with food preservative gas.
15. Use of a device according to claim 14 , characterized in that the device (1) is used in a restaurant and/or household kitchen for filling a food package (5, 45, 49) with food preservative gas.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP08168488.8 | 2008-11-06 | ||
EP08168488A EP2184234B1 (en) | 2008-11-06 | 2008-11-06 | A device for packaging food |
PCT/SE2009/051261 WO2010053441A1 (en) | 2008-11-06 | 2009-11-06 | An apparatus for domestic use to preserve food, by changing the atmosphere in a food package |
Publications (1)
Publication Number | Publication Date |
---|---|
US20110203222A1 true US20110203222A1 (en) | 2011-08-25 |
Family
ID=40521547
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US13/127,684 Abandoned US20110203222A1 (en) | 2008-11-06 | 2009-11-06 | Apparatus for Domestic Use to Preserve Food, by Changing the Atmosphere in a Food Package |
Country Status (5)
Country | Link |
---|---|
US (1) | US20110203222A1 (en) |
EP (1) | EP2184234B1 (en) |
CN (1) | CN102271541B (en) |
AT (1) | ATE548268T1 (en) |
WO (1) | WO2010053441A1 (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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US20150307217A1 (en) * | 2014-04-23 | 2015-10-29 | Fresh Box LLC | Food preservation system |
US20220002016A1 (en) * | 2020-07-06 | 2022-01-06 | Glup LLC | Apparatus, system, and method for modified atmosphere packaging |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107572028A (en) * | 2017-08-18 | 2018-01-12 | 吴焕松 | A kind of food fresh-keeping transportation resources and device |
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US20220002016A1 (en) * | 2020-07-06 | 2022-01-06 | Glup LLC | Apparatus, system, and method for modified atmosphere packaging |
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Also Published As
Publication number | Publication date |
---|---|
EP2184234B1 (en) | 2012-03-07 |
WO2010053441A1 (en) | 2010-05-14 |
ATE548268T1 (en) | 2012-03-15 |
EP2184234A1 (en) | 2010-05-12 |
CN102271541B (en) | 2013-07-24 |
CN102271541A (en) | 2011-12-07 |
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