• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a new industrial method of aseptic cooking and packaging of foods that are elaborated in discontinuous production lots from legumes, cereals, vegetables and other possible ingredients, using a cooking kettle in which cooking is carried out of food in two stages. In the second stage of cooking, sterilization of the batch of product is achieved at the same time. Once cooked and sterilized, the batch is then transferred to a second container that acts as a cooler for the product and as a lung deposit where the product remains until it is packed by a dosing and packaging machine under aseptic conditions. In this way, the production process is greatly simplified and the quality of the final product is improved, by reducing heat treatments and process times, while reducing investment and operating costs and facilitating the conservation and storage of final product, thanks to aseptic packaging that allows a long time of conservation at room temperature, so this new method of cooking is very appropriate to meet the growing global demand for ready-to-eat foods, especially in countries with less development economic, in which an important part of the population does not currently have access to this type of food. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2681518A1
    申请号:ES201830452
    申请日:2018-05-08
    公开日:2018-09-13
    发明作者:Jesus Maria LINARES GIL
    申请人:Labor Basica Coop V;
    IPC主号:
    专利说明:

    Date:
    Title of the Invention:
    Aseptic cooking method of foods made in batch.

    SECTOR OF THE TECHNIQUE 5

    The present invention belongs to the field of the food industry.

    In particular, it refers to an industrial food processing system in discontinuous production batches, which includes the formulation, cooking, sterilization, cooling and packaging processes of the product under aseptic conditions.


    BACKGROUND OF THE INVENTION 15

    Industrial processing normally requires that the food obtained be preserved for prolonged periods of time without deteriorating the taste, taste or texture thereof.
     twenty
    Food spoilage is normally due to chemical reactions promoted by enzymes normally found in the food itself, or to the action of microorganisms generally present in the environment.
     25
    One method of food preservation is low temperature storage to avoid microbiological activity, but it increases costs and complicates product marketing.

    In other cases, chemical preservatives are added to prevent deterioration, but this has sanitary restrictions because it can have negative effects on the consumer.

    A third option is to apply a heating heat treatment, which allows to deactivate the enzymes of the food and destroy the microorganisms present in it. Precisely, the method proposed in this invention uses heat treatment to ensure product preservation.

    However, heat treatments can also produce unwanted changes in the taste, appearance, texture or quality of the treated food. 40 This is especially important in the case of the elaboration of complex foods with various ingredients, as is the case in which we are concerned.

    Traditionally, in the food industry the cooking and sterilization processes have been considered separately, which has as a consequence that the food undergoes two different thermal treatments, with the consequences of alterations discussed above. This is precisely one of the main reasons why processed food
    industrially it usually has worse taste and appearance of home cooking.

    To avoid this double heat treatment, some methods have been proposed lately that unify the cooking process with that of sterilization, 5 such as the one described in Spanish patent application P201830391, which refers to a method of continuous food processing of production.

    The present method is based on the same principle of sterilizing the food at the same time it is being cooked, it is a method of batch batch production, not continuous production line.

    There are very few inventions referring to aseptic cooking methods in batch batch production, although we can cite as background: 15

     The US4059919A patent, which proposes the cooking and sterilization of a batch of product in an autoclave, but does not solve well the cooking needs of complex products and proposes a cooling of the product in the autoclave itself, which has various 20 inconveniences.

     US4234537A also describes a sterilization process of a batch of product in an autoclave, but only describes a rotating autoclave to achieve sterilization of the product, without defining the cooking method or the cooling and packaging of the product.

    In short, none of the methods currently existing in the food industry satisfactorily solve the entire process of a production batch from the beginning of the preparation of the recipe to the packaging of the product under aseptic conditions, which is the purpose of this invention.


    EXPLANATION OF THE INVENTION
     35
    The present invention relates to a new industrial method of aseptic cooking and packaging to produce a wide variety of foods made from legumes, cereals, vegetables and other possible ingredients.

    According to this method, the food is made in batch batch of production, that is, a certain quantity of product is subjected to a sequence of processing processes and is finally withdrawn to repeat the same procedure with a new quantity of product.

    For this, an industrial kettle is used in which a certain amount of food is cooked as follows:

    - The appropriate amounts of the ingredients that must be subjected to the first stage of cooking are introduced into the kettle, depending on the type of food in particular to be prepared. fifty
    - Next, a first stage of cooking of such ingredients is carried out with an indirect contribution of heat, which is transferred to the product from the outside of the kettle itself, through the wall of the container.
    At this stage, the ingredients that are being cooked undergo a series of 5 transformations, such as a reduction in water content, the generation of Maillard reactions, caramelization, stir-fry, etc. depending on the specific recipe of the food.

    - Once the first stage of cooking is finished, the product formulation is completed with the other ingredients of your recipe.

    - Next, a second cooking stage is carried out in which at the same time the effective sterilization of the product is achieved, by raising and maintaining its temperature for the time necessary for it. fifteen
    Depending on the pH value of the processed product, sterilization normally requires temperatures above 100 ° C, so the container must be internally pressurized.
    For faster and more efficient heating of the product in the second stage of cooking, the kettle has a steam injection system previously treated to ensure a quality of culinary steam, suitable for coming into contact with the food.

    In this way, the product contained inside the kettle is cooked and sterilized in a single process, avoiding the deterioration that would cause an additional thermal sterilization treatment in the quality of the product.

    This method also allows a great saving of heating energy of the product, by allowing the sterilization of the product taking advantage of the cooking temperature itself, without intermediate cooling processes between the cooking stage and the sterilization of the product.

    Once the process of cooking and sterilization of the product batch in the kettle is finished, it must be evacuated in order to begin the production of a second production batch. For this, this method proposes the transfer 35 of the batch already cooked from the kettle to a second container without having to use any mechanical pumping equipment, but taking advantage of the positive vapor pressure inside the kettle.

    Before receiving the batch of product, said second container is sterilized and pressurized with inert gas to be able to maintain the aseptic conditions of the product and avoid its microbial contamination.

    Once transferred, the batch of product is cooled in the second container itself, which is actually a scraped surface tubular exchanger, with an outer jacket through which cold water circulates to cool the product by indirect heat transfer through the exchanger wall, and has sufficient internal volume to support the entire batch of the product.


    In the cooling process, the water that passes through the outer jacket of the heat exchanger receives thermal energy from the inner product, which increases the water temperature itself and allows the recovery of heating energy if part of the cooling water It is 5 later used in the formulation of the product.

    Finally, the batch of product already cooled is packaged by a machine that doses and packages it under aseptic conditions. In this last process, the second container fulfills the function of being the lung reservoir of the product, 10 taking advantage of the internal pressurization of the container itself to transfer the product to the filler without using a mechanical pumping system.

    In cases where the elaborated product so requires, a crushing or 15 milling equipment can be included between the second container and the packaging machine.

    Once the filler has finished packing the product batch, the second container is ready to receive the next batch.
     twenty
    The aseptic cooking method described here allows to establish food production plants of excellent quality and long life at room temperature, with a relatively small investment and low production costs, so it is very appropriate to meet the growing global demand for ready-made foods to eat, especially in the 25 countries with less economic development, in which an important part of the population does not currently have access to this type of food.


    PREFERRED EMBODIMENT OF THE INVENTION. 30
    A preferred embodiment of this invention is the process of preparing a recipe for stewed lentils described below.

    The cooking pot is a cylindrical horizontal tank closed at both ends, with an approximate inner diameter of 500 mm and a length of 35 1,200 mm, with a double steam heating jacket in the lower half of the cylindrical body of the container, a system of agitation by means of vanes fixed to a rotating bar located in the central geometric axis of the cylindrical container and with an upper gate to allow loading of ingredients and a lower valve to allow unloading. 40

    This container allows production batches of 200 kg of final product.

    For the first stage of cooking, 30 Kg of a mixture of vegetables (onion, tomato and pepper) previously diced, together with 5 Lt of olive oil, are introduced into the container, and the mixture is heated by steam in the shirt to saute the vegetables, keeping the tank open to allow the steam generated in the process to escape.
    Once the vegetables are fried, 50 Kg of dried lentils are introduced into the kettle, 120 Lt of water and 3 Kg of salt, then closing the tank and injecting steam until the temperature of the interior product reaches 120 ° C, maintaining that temperature for 15 minutes to complete the cooking of the product and get sterilization at the same time. 5

    Then, the lower valve of the kettle is opened and all its contents are transferred to the second vessel, which is in this case a tubular exchanger with an inner diameter of 250 mm and 6 m in length, with double cooling jacket with cold water and a central rotating bar with elements 10 scrapers of the inner wall of the exchanger. The rotation of this bar allows rapid cooling of the product contained in the tubular exchanger.

    The tubular exchanger has been previously steam sterilized and has a sterile air inlet and outlet connection that allows its internal pressure to be regulated.

    When the temperature of the product is below 45 ° C, the packaging process begins in an aseptic filler connected to the tubular cooler, which packages the product in plastic bags made from a film coil 20 of a plastic material suitable for this purpose.

    The filler has a sterile chamber in which the process is carried out the formation of the bag and the packaging of the product.
     25
    During the filling process, the internal pressure of the exchanger is automatically regulated to maintain an adequate transfer of product to the filler.

    The tubular cooler has an electronic sensor to detect that the transfer of product to the filler has finished and can receive a second production batch.

    In this way, delicious stewed lentils packaged in a flexible plastic bag with a long shelf life at room temperature are obtained.
    权利要求:
    Claims (2)
    [1]
    Date:
    Title of the Invention:
    Aseptic cooking method of foods made in batch.
    CLAIMS:
    1. Aseptic cooking method of a wide variety of foods 5 made from legumes, cereals, vegetables and other possible ingredients, characterized in that:
    a) The processes of formulation, cooking and sterilization of the food are carried out in a first container, which is a kettle or cooking reactor where batch batches of product are produced sequentially with two different stages of cooking:
    - A first stage of cooking in which some ingredients 15 of the product are introduced into the kettle and receive an indirect contribution of heat through the wall of the kettle.
    - A second stage of final cooking in which the rest of the ingredients that make up the product batch are added to the kettle and receive a direct contribution of heat by means of steam injection to complete their cooking and get at the same time the effective sterilization of the product, thus avoiding the deterioration that a subsequent second heat sterilization heat treatment would cause in the product quality.
    b) The batch of product already cooked and sterilized is then transferred, taking advantage of its own positive vapor pressure and without using a mechanical pumping system, to a second aseptic vessel which is a tubular heat exchanger with outer jacket and scraped surface , which is pressurized with inert gas and fulfills the double function of:
    - Cool the product with the possibility of heat recovery, taking advantage of part of the cooling water that has previously passed through the outer jacket of the heat exchanger in the product formulation.
    - Serve as a lung deposit of the product prior to packaging 40 under aseptic conditions.
    c) The batch of cooled product is finally packaged in aseptic, taking advantage of the internal pressurization of the second container to deliver the product to the aseptic packaging machine 45, without using a mechanical pumping system.

    [2]
    2. Aseptic cooking method according to the first claim in which, between the second container and the packaging machine, a crushing or grinding system is included which allows obtaining a final product of homogeneous and fine texture.
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    同族专利:
    公开号 | 公开日
    ES2681518B2|2019-04-01|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US4059919A|1975-04-25|1977-11-29|H. J. Heinz Company Limited|Heat treating particulate material|
    US4234537A|1977-12-23|1980-11-18|Societe D'assistance Technique Pour Produits Nestle S.A.|Sterilization of particulate solid materials|
    EP0034291A2|1980-02-15|1981-08-26|Societe Des Produits Nestle S.A.|Heat treatment of particulate solid materials|
    WO2000049925A1|1999-02-23|2000-08-31|Purely Supreme Foods, L.L.C.|Food preparation and packaging process|
    法律状态:
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201830452A|ES2681518B2|2018-05-08|2018-05-08|Aseptic cooking method in batch lots|ES201830452A| ES2681518B2|2018-05-08|2018-05-08|Aseptic cooking method in batch lots|
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