• 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:
    Standardizing milk equipment that is a novel cream dosing equipment capable of reinjecting in the milk the amount necessary to reach the fat concentration value set in the recipe. The equipment is arranged at the exit of the skimmer unit and is fed by the main line, which feeds it from the heavy phase, and by the secondary line, which feeds it from the light phase, and in turn feeds any processing line continuously, sending the remaining cream to the cream storage tank. The equipment is characterized by the incorporation of a grease meter (A) and a measuring system (C1, C2 and C3 flowmeters) and precise dosing (pumps B1, B2). As well as hardware and software for signal processing and control. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2735078A1
    申请号:ES201830568
    申请日:2018-06-11
    公开日:2019-12-16
    发明作者:Holger Funke
    申请人:Seppelec S L;
    IPC主号:
    专利说明:

    [0001]
    [0002] Milk Standardization Equipment
    [0003]
    [0004] Object of the invention
    [0005]
    [0006] The object of the present invention is a novel cream dosing equipment capable of reinjecting in the milk the amount necessary to reach the fat concentration value set in the recipe.
    [0007]
    [0008] Background of the invention
    [0009]
    [0010] The milk production plants consist of a tank of origin, in which milk from livestock farmers is stored, a skimmer placed at the exit of the tank of origin which separates the whole milk into two streams: a main one, called the phase heavy, composed of skim milk and other secondary, called light phase, composed of cream extracted from whole milk, then the standardized equipment of milk is placed, which mixes both streams getting a concentration of cream close to the desired . This equipment on the one hand feeds a cream storage tank and a standardized milk storage tank. After the necessary corrections due to inaccuracy in the dosing of these equipments, the pasteurization and packaging line is fed.
    [0011]
    [0012] The standardization of milk equipment is aimed at dosing cream in milk from the source tank to obtain the desired concentration, which is usually done by means of two or more modulating valves and flow meters that measure the volume of cream to be injected and the volume of milk from the source tank, and regulate the opening and closing of the valves.
    [0013]
    [0014] The opening and closing of the modulating valves generates interference in the skimmer unit due to pressure variations, which causes erratic operation and variations in the cream concentration in milk.
    [0015] In addition, these standardization equipment requires quality checks by the plant's operators, restricting its use in plants whose operation is in batches.
    [0016]
    [0017] In summary, current standardization equipment has the following disadvantages:
    [0018]
    [0019] • Need to check the concentration of fat or cream in the milk by the operators.
    [0020] • They destabilize the optimal functioning of skimming units. • The high volume of shrinkage in the cream during the plant's setting.
    [0021]
    [0022] The present invention advocates a standardization equipment that solves the above drawbacks, is able to work in continuous and batch processes, records and regulates, in real time, the amount of fat or cream contained in standardized milk.
    [0023]
    [0024] Description of the invention
    [0025]
    [0026] The milk standardization equipment, which is the object of the present invention, is disposed at the exit of the skimming unit and is fed by the main line that feeds it from the heavy phase and by the secondary line that feeds it from the light phase, and in turn feeds any continuous processing line, sending the remaining cream to the cream storage tank.
    [0027]
    [0028] The milk standardization equipment, which is the object of the present invention, comprises:
    [0029]
    [0030] • a frame to which the rest of the elements and devices are fixed;
    [0031] • a heavy phase input line, or skim milk, from the skimmer unit;
    [0032] an entry line of the light phase, or cream, from the skimmer unit;
    [0033] a standardized milk outlet line that is homogeneous milk in its fat content, which feeds the standardized milk processing unit, which usually includes pasteurizers, UHT (for its acronym in Ultra High Temperature or ultra high temperature), and fillers, and that has:
    [0034]
    [0035] - a hydraulic pump,
    [0036] - a mixer placed downwards from the said hydraulic pump and which has at least six internal baffles placed in a spiral,
    [0037] - a grease meter (A), preferably by spectrophotometry, arranged descending from said static mixer, which uses four optical analysis methods: transmission, dispersion, fluorescence and refraction. Measuring in the wavelength range between 200 nm and 4000 nm;
    [0038]
    [0039] a light phase output line that feeds a cream storage tank, in which a hydraulic expedition pump is arranged;
    [0040] a reinjection output line to a source tank;
    [0041] a first mass flowmeter disposed in the heavy phase input line;
    [0042] a second mass flowmeter arranged in the light phase inlet line,
    [0043] a thermally insulated light phase regulation tank, which has two output lines, the first is the mentioned light phase output line and the second is a light phase injection line that connects to the phase input line weighed downwards from the mass flowmeter and upwards from the hydraulic pump, and having one or more level sensors, one or more maximum level sensors and one or more temperature sensors of the stored light phase;
    [0044] • a third mass flow meter arranged in the light phase injection line;
    [0045] • a dosing pump, arranged in the light phase injection line ascending from the mass flowmeter;
    [0046] • a bypass system, whose common conduit is disposed in the light phase input line, whose preferred path is connected to the light phase input line descending from the mass flowmeter and ascending from the hydraulic pump , and whose driven track feeds said light phase regulation tank; • a computer device and its corresponding software that receives information from the first, second and third mass flowmeters and the grease meter and controls the automatic bypass valve and the frequency inverter of the dosing pump.
    [0047]
    [0048] Brief description of the figures
    [0049]
    [0050] Figure 1 shows a block diagram of the current state of the art in milk standardization.
    [0051]
    [0052] Figure 2 shows a scheme of a milk production plant that incorporates milk standardization equipment.
    [0053]
    [0054] Figure 3 shows a diagram of the milk standardization equipment.
    [0055]
    [0056] Preferred Embodiments
    [0057]
    [0058] Figure 1 shows a block diagram that represents the current process of standardized milk, in which milk (b) from livestock farmers is stored, skimmed (C), subsequently standardized (D) and stores the standardized milk (E) and the cream (F), after and after the necessary corrections, cream adjustment (G), due to the inaccuracy in the dosing of these equipments the pasteurized and packaging line is fed (H) .
    [0059] Figure 2 shows a preferred embodiment of the milk standardization equipment, which is the object of the present description, which is placed at the exit of a skimmer unit (2), which separates the whole milk from the source tank ( 1) in two streams: a main one, called heavy phase, composed of skim milk and a secondary one, called light phase, composed of cream extracted from whole milk, and that feeds a storage tank (3) of the light phase and the standardized milk processing unit (4).
    [0060]
    [0061] The milk standardization equipment (5) includes:
    [0062]
    [0063] • a frame to which the rest of the elements and devices are fixed;
    [0064] • a heavy phase input line (LE1), or skim milk, from the skimmer unit;
    [0065] • a light phase input line (LE2), or cream, from the skimmer unit;
    [0066] • a standardized milk outlet line (LS1) that feeds the standardized, non-homogenized milk line, continuously and therefore feeds any type of pasteurizer, fillers, etc., and which has:
    [0067]
    [0068] a hydraulic pump (B1), which can be of the booster type , single or double screw, lobular or preferably centrifugal, a static mixer (M), preferably static, although it could be dynamic, placed downwardly from said booster pump and which has at least six internal baffles placed in a spiral. The introduction of a static mixer at the exit of the standardized and homogenized milk outlet line, in terms of its fat content, allows the rapid mixing of standardized milk, guaranteeing the correct homogenization and eliminating the need for tanks with agitation.
    [0069] a grease meter (A), preferably by spectrophotometry, arranged downwardly from said mixer static, which uses four optical analysis methods: transmission, dispersion, fluorescence and refraction. Measuring in the wavelength range between 200 nm and 4000 nm;
    [0070]
    [0071] a light phase output line (LS2) that feeds the cream storage tank, in which an expedition pump (B3) is arranged, preferably lobular, although it could be single or double screw or centrifugal;
    [0072] an injection outlet line (LS3) to the source tank;
    [0073] a first mass flow meter (C1) disposed in the heavy phase input line;
    [0074] a second mass flow meter (C2) disposed in the light phase input line;
    [0075] a thermally insulated light phase regulation tank (T), which has two output lines, the first is the mentioned light phase output line (LS2) and the second is a light phase injection line (L1) that is connects to the heavy phase input line (LE1) downward from the mass flowmeter (C1) and upwardly from the hydraulic pump, and which has one or more level sensors, one or more level sensors maximum and one or more temperature sensors of the stored light phase, which monitor and record the light phase volume and its temperature. The main advantage of the regulation tank is to divide the circuit in two, avoiding any interference in both the operation of the booster pump and the equipment;
    [0076] a third mass flow meter (C3) disposed in the light phase injection line (L1);
    [0077] a dosing pump (B2), preferably double screw type with frequency variator, single screw or lobular, arranged in the light phase injection line (L1) ascending from the mass flowmeter (C3). Dosing with a pump equipped with a frequency inverter and controlled from the computer device (hardware) with the mass measurements and corrections of the grease meter achieves a greater precision in the dosage, since the injection flow does not depend on the pressures and flow rates of the line.
    [0078] • a bypass system, which may be composed of several valves or preferably a single three-way automatic bypass valve (V), whose common conduit is arranged in the light phase inlet line, whose preferred route is connected to the line for entering the light phase downwards from the mass flowmeter (C1) and upwards from the hydraulic pump, and whose driven path feeds the said light phase regulating tank;
    [0079] • a computer device and its corresponding software that receives information from the first, second and third mass flowmeters and the grease meter and controls the automatic bypass valve and the frequency inverter. The greatest advance of the equipment is to introduce a control element and record the amount of fat, this computing device recalibrates the cream dosing flow based on the fat values in the final mixture.
    [0080]
    [0081] During the start-up of the milk production plant, since skimmer units require a certain start-up period, the equipment injects the entire light phase out of range into skim milk and recirculates it into the milk tank. origin, which is achieved with the three-way automatic bypass valve.
    [0082]
    [0083] The operating point of the skimming unit is determined by calculations of the fat concentration as a function of the density measured by the first mass flowmeter. Once said operating point is reached, the computer device activates the automatic bypass valve giving way to the light phase to the regulating tank. This regulation tank makes the skimming process independent of the injection process and / or deflection of the excess light phase, avoiding interference between the two. The automatic bypass valve also performs a safety function, since in case of failure of the hydraulic pump and / or grease out of range, the equipment returns to the recirculation position, until the optimum operating parameters are reached.
    [0084] Once the start-up of the equipment is finished, in the operation in operation mode Both the cream coming from the skimmer unit and the skim milk are counted and analyzed by the first and second mass flowmeters and the computing device records the concentrations and heavy and light phase flows that reach the equipment.
    [0085]
    [0086] With the data of the second mass flowmeter, the concentration of fat in the light phase stored in the regulation tank is calculated, adjusting the light phase dosage through the injection line by means of the third mass flow meter.
    [0087]
    [0088] Once the mixture is done, it passes through the static mixer, which homogenizes the heavy phase and light phase mixture before reaching the fat meter, which has a double function: check and record the concentration of fat in the milk and recalibrate the light phase dosage based on the measured results.
    [0089]
    [0090] In addition, the equipment has a hydraulic pump capable of isolating the installation downstream from the installation upstream, eliminating any interference in the dosage due to pressure variations.
    权利要求:
    Claims (10)
    [1]
    1.- Standardization equipment for milk, of those that are disposed between, on the one hand, the skimming unit and, on the other hand, the standardized milk processing unit and the cream storage tank, characterized in that it comprises:
    • a frame to which the rest of the elements and devices are fixed;
    • a heavy phase input line (LE1), or skim milk, from the skimmer unit;
    • a light phase input line (LE2), or cream, from the skimmer unit;
    • a standardized milk outlet line (LS1) that feeds the standardized milk processing unit that has:
    - a hydraulic pump (B1),
    - a mixer (M) disposed downwardly from said hydraulic pump (B1) and which has at least six internal baffles placed in a spiral,
    - a grease meter (A) disposed downwardly from said mixer (M);
    • a light phase output line (LS2) that feeds a cream storage tank, in which an expedition hydraulic pump (B3) is arranged and can be screw type (single or double), centrifugal or preferably lobular.
    • a reinjection output line (LS3) to a source tank;
    • a first mass flow meter (C1) disposed in the heavy phase input line (LE1);
    • a second mass flowmeter (C2) arranged in the light phase input line (LE2),
    • a thermally insulated light phase regulation tank (T), which has two output lines, the first is the mentioned light phase output line (L7 = LS2) and the second is a phase injection line (L8) light which is connected to the heavy phase input line (LE1) downwards from the mass flowmeter (C1) and upwards from the hydraulic pump (B1), and which has one or more level sensors, one or more maximum level sensors and one or more temperature sensors of the stored light phase;
    • a third mass flow meter (C3) arranged in the light phase injection line (L8);
    • a dosing pump (B2), arranged in the light phase injection line (L8) ascending from the mass flow meter (C3);
    • a shunt system, whose common conduit is disposed in the light phase input line, whose preferred path is connected to the light phase input line downward from the mass flowmeter (C1) and upwardly from the hydraulic pump (B1), and whose driven path feeds the said light phase regulating tank;
    • a computer device (hardware) and its corresponding computer program (software) that receives information from the first, second and third mass flowmeters and the grease meter and controls the automatic bypass valve and the frequency variator of the dosing pump.
    [2]
    2. - Milk standardization equipment according to claim 1, characterized in that the hydraulic pump (B1) has the function of a booster pump .
    [3]
    3. - Milk standardization equipment according to claim 1, characterized in that the hydraulic pump (B1) is a centrifugal hydraulic pump.
    [4]
    4. - Standardizing equipment for milk, according to any of the preceding claims, characterized in that the mixer (M) is dynamic.
    [5]
    5. - Standard milk equipment, according to any of claims 1 to 3, characterized in that the mixer (M) is static.
    [6]
    6. - Standard milk equipment, according to any of claims 1 to 5, characterized in that the hydraulic expedition pump (B3) is of the lobular type.
    [7]
    7. - Standard milk equipment according to any of the preceding claims, characterized in that it is composed of a single automatic three-way bypass valve (V).
    [8]
    8. - Standard milk equipment, according to any of the preceding claims, characterized in that the hydraulic expedition pump (B2) is of the double screw type.
    [9]
    9. Standard milk equipment according to any of the preceding claims, characterized in that the flow meters (C1, C2 and C3) are of the mass type.
    [10]
    10. - Standard milk equipment according to any of the preceding claims, characterized in that the fat meter (A) performs the measurement by spectrophotometry.
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    同族专利:
    公开号 | 公开日
    ES2735078B2|2021-06-17|
    WO2019238993A1|2019-12-19|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3983257A|1973-05-29|1976-09-28|Alfa-Laval Ab|Production of milk with predetermined fat content|
    US4074622A|1975-04-23|1978-02-21|Westfalia Separator Ag|Apparatus for the continuous production of standardized milk|
    US4075355A|1975-07-04|1978-02-21|Gebruder Ott A.G.|Method and apparatus for regulating the fat content of milk|
    EP0427750A1|1988-07-21|1991-05-22|Stork Amsterdam|Process and device for the production of milk with a predetermined fat content.|
    US5137738A|1989-05-16|1992-08-11|Wedgewood Technology, Inc.|System and method for controlling butterfat content in standardized milk product using whole product sensor|
    US5260079A|1991-11-29|1993-11-09|Westfalia Separator Ag|Method of and equipment for controlling the content of fat in milk|
    法律状态:
    2019-12-16| BA2A| Patent application published|Ref document number: 2735078 Country of ref document: ES Kind code of ref document: A1 Effective date: 20191216 |
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201830568A|ES2735078B2|2018-06-11|2018-06-11|Milk standardization equipment|ES201830568A| ES2735078B2|2018-06-11|2018-06-11|Milk standardization equipment|
    PCT/ES2019/070400| WO2019238993A1|2018-06-11|2019-06-10|Milk standardisation device|
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