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    • 5. 发明公开
    • Verfahren zur Ermittlung von Prozessgrössen für eine Kraftmessvorrichtung und Kraftmessvorrichtung
    • 用于确定一个测力装置的工艺参数的方法和测力装置
    • EP2278286A1
    • 2011-01-26
    • EP09166243.7
    • 2009-07-23
    • Mettler-Toledo AG
    • Reber, DanielKöppel, Thomas
    • G01G23/01G01G23/48
    • G01G23/48G01G23/01
    • Das Verfahren dient der Ermittlung von Prozessgrössen in einer Kraftmessvorrichtung (1), insbesondere einer Waage, die eine Systemsteuerung (SM10) aufweist, welche anhand eines Messprozesses (MP) ein zu einer einwirkenden Kraft (Win) korrespondierendes elektrisches Kraftmesssignal (Wout) bildet; wobei in den Messprozess (MP) eingegriffen wird, um störende Einflüsse zu kompensieren. Erfindungsgemäss wird der Messprozess (MP) durch einen Bildprozess (BP) zumindest teilweise abgebildet, der wenigstens ein Bildmodul (BM1, BM2, ..., BMn) aufweist, durch das ein physikalischer Teilprozess des Messprozesses (MP) abgebildet und der Zusammenhang zwischen wenigstens einer physikalischen Eingangsgrösse und wenigstens einer physikalischen Ausgangsgrösse erstellt wird. Dem Bildprozess (BP) wird wenigstens eine Prozessgrösse, wie eine Eingangsgrösse, eine Zwischengrösse und/oder eine Ausgangsgrösse, des Messprozesses zugeführt, zu der das wenigstens eine Bildmodul (BM1, BM2, ..., BMn) eine dazu korrespondierende physikalische Referenzgrösse (P, TM, TH, T1, T2) bildet, welche als Prozessgrösse in den Messprozess (MP) eingeführt oder mittels der eine Prozessgrösse (TM, Wout) des Messprozesses (MP) korrigiert wird.
    • 该方法包括用输入和输出变量,并且在测量过程的中间变量供给图像处理(BP)。 物理参考变量E.G. 线圈功率(P),补偿杆的磁体温度(TM),温度(TH),和温度传感器的温度(T1,T2)通过图像模量(BM1-BM4,BM8,BM9,BM41,BM42,BM61形成 BM 62,BM71-BM73)和被引入作为过程变量成测量过程。 参考变量被用来矫正在电力测量信号(Wout的)。 因此独立claimsoft被包括为一个测力装置,其包括一系统控制器。
    • 8. 发明公开
    • Corrected electronic balances and thermal analyzers
    • 电子平衡
    • EP0564158A3
    • 1993-11-24
    • EP93302266.7
    • 1993-03-25
    • SHIMADZU CORPORATION
    • Uchiike, Mitsumasa
    • G01G7/04G01G23/48G01G9/00G01N5/04
    • G01G7/04G01G23/48
    • An electronic balance is provided with a correcting circuit for cancelling thermal drift in the output of a photoreceiver (1). The photoreceiver (1) comprises two photosensitive areas (11/12) and the shadow of a shutter (3) moving with a beam (4) of the balance is cast on the two photosensitive areas. In one arrangement (Fig. 2), outputs of the two photosensitive areas (11/D11, 12/D12) are sent to a first subtracting circuit (10) and an adding circuit (20), and an output of the first subtracting circuit (10) is corrected by an output of the adding circuit (20), by means of a second subtracting circuit (30) which produces a signal corresponding to a linear polynomial of an output of the first subtracting circuit (10) and the output of the adding circuit (20), to produce a signal which is independent of temperature changes and corresponds only to turning of the beam (4) of the balance. In another arrangement (Fig. 4), the photoreceiver (50 - Figure 3) has a third photosensitive area (51/D51), outputs of the two photosensitive areas (11/D11, 12/D12) are sent to a first subtracting circuit (60), and correction is effected by a second subtracting circuit (80) which produces a signal corresponding to a linear polynomial of an output of the first subtracting circuit (60) and an output of the third photosensitive area (51/D51).
    • 9. 发明公开
    • PRÄZISIONWAAGE ODER MASSEKOMPARATOR MIT MODUL ZUR MESSUNSICHERHEITSBESTIMMUNG
    • 精油ER ER OR OR OR OR UNG UNG UNG UNG UNG UNG UNG UNG UNG UNG UNG UNG UNG UNG UNG UNG UNG
    • EP3066433A1
    • 2016-09-14
    • EP14792741.2
    • 2014-10-22
    • Sartorius Lab Instruments GmbH & Co. KG
    • RINDERMANN, RainerPERTSCH, ThomasMÜHLICH, SigoFEHLING, ThomasOSANG, SteffenGATZEMEIER, Benno
    • G01G21/28G01G23/48G01G17/04
    • G01G23/01B01L3/021G01G17/04G01G19/303G01G21/22G01G21/286G01G23/48G01N9/26G05D11/00
    • The invention relates to a precision scale with a scale chamber (16), a windshield (18, 20, 22) which surrounds the scale chamber (16), an air conditioning module (34) which is removably arranged in the scale chamber (16), a processor (32) which is arranged in the precision scale, a data input unit which is arranged on the precision scale, and a data transmission path with which data can be exchanged between the air conditioning module (34) and the processor (32), said processor (32) containing a measurement uncertainty detection module (33) with which the measurement uncertainty of the scale can be ascertained. The invention also relates to an air conditioning module for electrically coupling to a precision scale in a removable manner, said air conditioning module (34) forming a sealed unit and having an air pressure sensor (62), a humidity sensor (54), an air temperature sensor (52), and a part of a data transmission path via which data can be transmitted to a processor outside of the air conditioning module. The invention finally relates to a method for determining the measurement uncertainty of a precision scale comprising a scale chamber (16) which is separated from the surroundings by a windshield and in which an air pressure sensor (62), a humidity sensor (54), and an air temperature sensor (52) are arranged, said sensors (52, 54, 62) being coupled to a processor (32). Goods to be weighed, in the form of a test object, are weighed, and the following steps are carried out: - ascertaining the air pressure, the humidity, and the air temperature in the scale chamber (16) using the sensors (52, 54, 62); - weighing the test object; - determining the standard uncertainty of the weighing method; - determining the standard uncertainty of the mass of the test object; and - ascertaining a total uncertainty of the scale result.
    • 一种质量比较器,包括称重室(16); 围绕称重室的防风罩(18,20,22); 气候模块(34),其可拆卸地设置在所述称重室中; 处理器(32),数据输入单元和数据传输路径,在气候模块和处理器之间交换数据。 处理器被编程为使用称重室中的空气压力,空气湿度和空气温度来确定基于被测量物质的密度,至少一个测试样品和/或浮力校正的空气浮力 因子。 还公开了一种气候模块,其被配置为电可拆卸地耦合到质量比较器,以及用于操作质量比较器的方法,包括确定空气浮力和/或浮力校正因子。
    • 10. 发明公开
    • KOMPARATORWAAGE MIT ABNEHMBAREM KLIMAMODUL
    • EP3066432A1
    • 2016-09-14
    • EP14789528.8
    • 2014-10-22
    • Sartorius Lab Instruments GmbH & Co. KG
    • ESSER, RichardHOLST, HeykoMÜHLICH, SigoHILBRUNNER, FalkoFEHLING, ThomasGATZEMEIER, BennoGUNKEL, Rainer
    • G01G21/28G01G23/48
    • G01G23/01B01L3/021G01G17/04G01G19/303G01G21/22G01G21/286G01G23/48G01N9/26G05D11/00
    • The invention relates to a mass comparator comprising: a weighing chamber (16); a draught shield (18, 20, 22) surrounding the weighing chamber (16); a climate module (34) removably arranged in the weighing chamber (16); a processor (32) arranged in the mass comparator; a data input unit arranged on the mass comparator; and a data transmission path via which data can be exchanged between the climate module (34) and the processor (32), said processor (32) being designed in such a way that, based on the density of the item to be weighed, the processor can identify the air buoyancy of at least the test item and/or the buoyancy correction factor from the air pressure, the air humidity, and the air temperature in the weighing chamber (16). The invention also relates to a climate module for electrically coupling to a mass comparator in a detachable manner, said climate module (34) forming a complete sub-assembly and comprising an air pressure sensor (62), an air humidity sensor (54), and an air temperature sensor (52), as well as a portion of a data transmission path via which data can be sent to a processor external to the climate module. The invention further relates to a method for operating a mass comparator having a weighing chamber (16) separated from the surrounding area by a draught shield, and in which chamber an air pressure sensor (62), an air humidity sensor (54), and an air temperature sensor (52) are arranged, wherein said sensors (52, 54, 62) are coupled to a processor (32), and wherein an item to be weighed, in the form of a test item (B), and at least one reference weight (A) are weighed, said method being characterised by the following steps: identifying the air pressure, the air humidity and the air temperature in the weighing chamber (16), using the sensors (52, 54, 62); inputting the density of the item to be weighed into the mass comparator, the mass of which item is to be determined; identifying the air buoyancy of at least the test item (B) and/or the buoyancy correction factor from the air pressure, the air humidity, the air temperature and the density of the item to be weighed; and determining the corrected, conventional weight value of the test item (B).
    • 一种质量比较器,包括称重室(16); 围绕称重室的防风罩(18,20,22); 气候模块(34),其可拆卸地设置在所述称重室中; 处理器(32),数据输入单元和数据传输路径,在气候模块和处理器之间交换数据。 处理器被编程为使用称重室中的空气压力,空气湿度和空气温度来确定基于被测量物质的密度,至少一个测试样品和/或浮力校正的空气浮力 因子。 还公开了一种气候模块,其被配置为电可拆卸地耦合到质量比较器,以及用于操作质量比较器的方法,包括确定空气浮力和/或浮力校正因子。