• 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:
    Product for animal feed based on germinated seeds and microalgae and procedure for its manufacture. This product is formed in a 90% by a mixture of germinated of different seeds in the following percentage: 60% cereals 20% oilseeds 10% legumes The remaining 10% is formed by microalgae The stages that characterize the production process are the following: The indicated proportions of seeds of cereals, legumes, oilseeds and microalgae are mixed, then hydrated. Then the necessary time should be left to rest, and finally the resulting mixture is placed in a tray. Said tray will be placed on a shelf inside a chamber under controlled conditions, until the production process is complete. The cultivation time of said product should not exceed six days in its entirety. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2611795A1
    申请号:ES201500807
    申请日:2015-11-06
    公开日:2017-05-10
    发明作者:Beatriz JIMÉNEZ ADANEZ
    申请人:Beatriz JIMÉNEZ ADANEZ;
    IPC主号:
    专利说明:

    DESCRIPTION

    Product for animal feed based on germinated seeds and microalgae and manufacturing procedure.
     5
    Object of the invention

    The present invention, as expressed in the statement of this specification, refers to a product for animal feed from germinated seeds and microalgae and a process for its manufacture. 10

    Background of the invention

    Many years ago, animals, both recreational or work and production, grazed on grasslands as a single food. The population growth and the lack of 15 pastures has led us to feed our animals with dry concentrates, which although it is true that we have increased the production of our food, it has been seen that in some cases, at the expense of The quality of them.

    In the case of horses, the change in diet has caused colic to be the first cause of death.

    In products such as milk, intolerances, or food allergies that did not exist in our ancestors have become widespread.
     25
    This patent is intended to provide animals with access to fresh pastures 365 days a year with their own technology, with vertical farming systems, which provide controlled daily production, both in quantity and in sanitary hygienic quality, which will reverse the products that We get from animals.
     30
    Description of the invention

    This patent aims to improve the feeding of animals through the development of a process for the production of sprouted cereal seeds, legumes, oilseeds and also microalgae for animal feed that guarantees better digestibility and / or a boost in your immune system . The seeds, when germinating, produce sprouts of grass with the two necessary parts in a ration: an outer part of green leaves that supply part of the fiber that our animals need, and that form a grass surface appetizing to the animal, and the inferior with the rest of the seed that contains the nutrients, (mineral vitamins and natural probiotics) and whose roots 40 form the framework that gives consistency to the plate.

    This fresh product, apart from freshness and naturalness, has nutritional properties (vitamins in its purest form) and this reverts to the health of the animal (prevents colic, tympanism, laminitis, etc.). Four. Five

    These foods are manufactured causing the germination of seeds in trays by modulating the climatic conditions of a chamber that allows said process without soil, fertilizer, or nutritive solutions. It is a process fully committed to the environment that meets the criteria of vertical agriculture. fifty

    The product is distributed in trays and placed in destination in some conservation modules with the incorporation of intelligent control systems that allow us to keep the perfect products for consumption.
    This product is 90% formed by a mixture of sprouts from different seeds in the following percentage:

    60% Cereals
     5
    20% Oilseeds

    10% Legumes

    The remaining 1.0% is formed by microalgae. 10

    This resulting product increases digestibility and reduces digestive disorders in horses, increases and improves the quality of the products we obtain in production animals.
     fifteen
    The production time is 6 days in total, since if left longer, it would become fodder and cease to be sprouted. The difference between the two is the nutritional value, which by not depleting the seed in the sprouts is greater than in the FVH (Hydroponic Green Forage).
     twenty
    To produce this product correctly, an agro-exotic system is developed. This system allows to obtain a product of quality and uniformity. Because the culture parameters are controlled; The system allows to homogenize the nutritional qualities of the product regardless of the time of the year in which it is made. The advantages of using this system are: 25

    - Uniform and homogeneous production system.

    - Savings in energy costs and process automation.
     30
    - Generation of parameters to determine possible crop problems.

    - It allows to control the systems of production of clients and warnings by means of mobile alarms of problems in the germinated production system.
     35
    The system has different parts, they can be bounded in hardware and software.

    1. Hardware The elementary hardware that makes up the system consists of sensors, microcontrollers, communication and actuation systems.
     40
    2. The control software completely customized to the sensor type.

    Description of a preferred embodiment

    The procedure for its manufacture corresponds to the criteria of vertical agriculture. Four. Five

    Vertical agriculture is characterized by guaranteeing the obtaining of food throughout the year, its organic quality and the sustainability in its production making intelligent use of water and energy in urban areas, so that:
     fifty
    - the water used will be a maximum of 10% of what would be used under normal conditions.

    - and 5% of the surface.
    The stages that characterize the production procedure are the following:

    The aforementioned proportions of cereal seeds, legumes, oilseeds and microalgae, are mixed, then must be hydrated. Then the necessary time should be left at rest, and finally the resulting mixture is introduced into a tray. 5

    Said tray will be placed on a shelf inside the controlled chamber, in its levels of humidity, temperature, light etc. until completing its production process.

    The cultivation time of said product must not exceed six days in its entirety, 10 including at this time both the rest and the stay in the tray inside the controlled chamber.

    The agro-exotic system used to obtain the product consists, as we have already advanced, of hardware and software. fifteen

    1. Hardware The elementary hardware that makes up the system consists of sensors, microcontrollers, communication and actuation systems.

    to. - Sensors: The sensors that make up the system are the 20 temperature and humidity sensor) and a light control system. The first works through a one wire communication protocol and the second with an i2c protocol. Being digital systems, they do not need system recalibrations, which implies robustness over time and reduced maintenance costs.
     25
    b. - Microcontrollers.

    C. - Communication systems: Datalogger (Micro OS Card Breakout Board adafruit) and communication through ESP2866 are used for data collection. This allows two data acquisition systems, through the physical medium (a micro SD card) and cloud storage through a Wi-Fi network generated with the ESP2866 (this device allows you to connect to any Wi-Fi network we generate, even that of a mobile phone). We also find LCD matrices to see the culture parameters in the camera itself and a bluetooth communication system (HC-05) to collect 35 data nearby.

    d. - Action systems: These systems are responsible for controlling the climate of the environment, for this we use relays and triacs. What they do is activate the current flow to start the fogging, cooling and / or lighting system. The system software is designed solely and exclusively for this specific application. This has different advantages when working with electronics and the client's own needs, within the software we can divide between the system control software (which the client does not see) and the environment interaction software, which is what The client himself uses to know the status of his device and the product.

    2. The control software, as we have mentioned above, is completely customized to the type of sensor and therefore we get a robust system and in case of failure of rapid system reset (the system resets in less than 50 seconds) being able Do this physically or remotely. The client control software has two variants, the web page and the mobile app. This allows to know in real time the cultivation characteristics of the system and interact with it.
    55
    权利要求:
    Claims (2)
    [1]

    1. Product for animal feed based on germinated seeds and microalgae, characterized in that it is formed in 90% by a mixture of sprouts of different seeds in the following percentage: 5
    60% Cereals
    20% Oilseeds
     10
    10% Legumes
    The remaining 10% is formed by microalgae.

    [2]
    2. Procedure for the manufacture of a product for animal feed based on 15 germinated seeds and microalgae, characterized in that the stages that characterize it are as follows: The seeds of cereals, legumes, oilseeds and microalgae, are mixed, then must be hydrated . Then the necessary time should be left at rest, and finally the resulting mixture is introduced into a tray. Said tray will be placed on a shelf inside a chamber under controlled conditions, up to 20 to complete its production process. The cultivation time of said product will not exceed six days in its entirety, including at this time both the rest and the stay in the tray inside the controlled chamber.
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    同族专利:
    公开号 | 公开日
    ES2611795B1|2018-02-20|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB2084446A|1980-07-31|1982-04-15|Dlugolecki Jaceck|Methods of producing foodstuff|
    WO2002054885A1|2001-01-16|2002-07-18|Unicrop Ltd.|Germinated seeds or sprouts in aquafeed compositions|
    RU2277344C1|2004-11-24|2006-06-10|Государственное научное учреждение Всероссийский научно-исследовательский институт орошаемого земледелия|Method for feedstuff production from feed corn|
    KR20050061429A|2005-05-31|2005-06-22|노경남|The method of chlorella products development by using chlorella nature oriented forage, as well as through edible animal rearing, and the development of nature and organic forage by using chlorella and agricultural products.|
    US20110236532A1|2010-03-24|2011-09-29|Kari Seguin-Laur|Food composition comprising germinated seeds or grains|
    FR2960745A1|2010-06-03|2011-12-09|Germaferm|Combination of at least two active ingredients, to develop muscle mass of animals, and to increase milk production of animals, comprises germinated barley, and mixture of rice bran and germ and spirulina|
    CN104187075A|2012-12-31|2014-12-10|余丽|Feed for sow and preparation method of feed|
    法律状态:
    2018-02-20| FG2A| Definitive protection|Ref document number: 2611795 Country of ref document: ES Kind code of ref document: B1 Effective date: 20180220 |
    2018-07-31| FA2A| Application withdrawn|Effective date: 20180725 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201500807A|ES2611795B1|2015-11-06|2015-11-06|Product for animal feed based on germinated seeds and microalgae and manufacturing procedure|ES201500807A| ES2611795B1|2015-11-06|2015-11-06|Product for animal feed based on germinated seeds and microalgae and manufacturing procedure|
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