DE3613238A1 - METHOD AND DEVICE FOR CALIBRATING AND REGULATING A WEIGHING DEVICE - Google Patents

Description

MPI - METROLOGIE PESAGE INTERNATIONAL, 2/4 Rue Isaac Newton, F-93150 La Blanc Mesnil / France

V experience and device for calibrating and regulating a weighing device

The invention relates to a method for calibration and Regulation of a weighing device by means of weight measurement using strain gauges with the features of The preamble of claim 1 and a device for performing the method with the features of Preamble of claim 3.

A weighing device contains a load receptacle as well as a weight measuring device, which is a load balancing device, includes a transducer and display device. The weight measuring device can, for example contain a strain gauge transducer. Such a sensor consists of an elastic measuring body and on this glued strain gauges.

The measuring body experiences mechanical deformations which are a function of the force F exerted by the transducer for the material to be weighed, which carries a mass M. These deformations cause a change in the Resistance of the strain gauges, which with suitable attachment and as a result of an external Power supply emit an electrical signal that is a function of the force F.

The force F and the mass M are given by the relationship:

F = Mg

linked together, where g is the acceleration due to gravity.

But now, as is well known, g is a quantity that essentially depends on the geographical latitude and the height above the The sea level of the measuring or operating site is dependent.

In order to take these changes into account, it is necessary in the case of high-precision weighing devices, every weighing device to be calibrated according to the measuring location.

Such a method is not at all satisfactory insofar as the calibration on the measuring or during measurement Place of use the presence of qualified personnel means that the necessary equipment for calibration ready, and each change of the measuring location requires a new calibration.

The object of the invention is therefore to provide a method and a device for calibrating and regulating To provide weighing devices that easily compensate for the effects of a weighing device caused by changes in the acceleration due to gravity as a function of the measuring location, the Regulation can be carried out at a location remote from the last measurement location.

According to the invention, this object is achieved by a method with the features of claim 1 and a device with the features of claim 3 solved.

A number of Correction coefficients for the change in the acceleration due to gravity in latitude and altitude zones determined, the cover the calibration locations and all planned measurement locations. The one about the heights and latitudes of the measuring locations Correction coefficients belonging to it are then entered into the weight calculator. The Wieaevorrichtuna will

finally as a function of the measuring location by taking into account the correction values belonging to the respective measuring location regulated for width and height.

Well-known mathematical equations allow, the To calculate the acceleration due to gravity for a place whose latitude and altitude are known, assuming that the Earth represents an ellipsoid.

Accordingly, the acceleration due to gravity g as a function of latitude / at sea level is given by the following relationship given:

g = 9.780318 (1 + 0.0053024 sin ² 7 ° -0.0000059 sin ² 2V) (1) where

g xn m / s

7 ° in degrees

is specified.

This value of g for a latitude at sea level is corrected for a different one Height. According to the profile is actually for a height difference of one meter with the same aeographic Width the variation of the gravitational acceleration:

2 χ 10 ~ ⁶ m / s ² (2)

(The acceleration due to gravity decreases with the altitude).

According to the invention, to all intended measurement locations to cover the weighing device, taking into account the desired accuracy for the elementary ranges Width and height provided. A correction coefficient is assigned to each area and the Calibration of the correction coefficients according to the latitude and high altitude of the measuring location entered into the arithmetic unit for determining the weight and finally for regulation as a function of the measuring site are the correction coefficients for the latitude and high range of the measuring site considered.

In a preferred embodiment, all of the correction coefficients are stored in the weighing device stored and it is then used to calibrate and regulate the weighing device according to the measurement location the correction coefficients by choosing the width range and the height range of the calibration and measurement location are called to convert these coefficients into the To introduce calculation.

In the single figure of the drawing, an embodiment of the subject matter of the invention is illustrated schematically .

According to this single figure, the measuring chain of a weighing device contains, in a known manner, one which is not illustrated Receiving device for the goods to be weighed, a balancing or load balancing device with converter, in the form of a weight measuring unit 1 and a weight calculation unit 2 is illustrated, as well as a display device acting as a numerical display unit 3 is shown. The transducer for the weight preferably consists of a measuring body and strain gauges, which are glued to this.

A correction device is assigned to this measuring chain, which is known per se, in order to reduce the effects to correct that caused by the change in the acceleration due to gravity as a function of the geographical latitude and the altitude occur. This correction device has a multiplier 4, which between the unit for weight calculation 2 and the display unit 3 is arranged, as well as a memory 5, in which the correction coefficients are stored, and a coded input unit 6, the it makes it possible to select the correction coefficients contained in the memory 5 in order to transfer them to the multiplying unit 4 so that they intervene in the weight calculation chain.

The correction coefficients stored in the memory 5 are as a function of the geographic area within which the weighing device is to be calibrated, as well as the geographical areas determined within which the weighing device is to be used to compensate for the effects caused by the change in the acceleration due to gravity as a function of the height and width of the calibration location and the intended measurement locations arise.

In France, for example, the width varies between 42 and 51. It is therefore possible, for example, to use the Divide latitude into eight zones LO to L7, which corresponds to a change in latitude by 1 °.

In a corresponding manner, for example, the altitude range between 0 m and 4000 m can be divided into eight zones AO to A7 can be divided according to a height variation of 500 m.

In the case of binary coding, it is possible by means of an input unit 6 containing six switches, under Select a zone from the eight latitude zones and one zone from the eight altitude zones, so as to be different from those in the Memory 5 contained correction coefficients the corresponding Correction coefficients associated with the selected latitude zone and the selected altitude zone in introduce the unit for calculating weight.

In other words, each location is selected by its latitude and altitude references and the associated correction coefficients are introduced into the calculation chain.

This selection is made for the rest of the calibration the weighing device by selecting the latitude zone and the height zone according to the measurement location and after calibration by regulating the weighing device as a function of the measuring location. This regulation, which is dependent on the measurement location can be made anywhere and the input unit 6 can then to the weather service regulations of the country concerned must be sealed.

Instead of selecting the correction coefficients with the help of switches, it is also possible to to make this selection by means of a pushbutton switch or to use other interrupting devices.

It goes without saying that the correction coefficients accordingly the variation in gravitational acceleration as a function of latitude and altitude for each geographical zone can be determined and saved. The only limit here is that Storage capacity 5.

Claims (3)

Patent attorneys Dr.-Ing. R. Rüger Dipl.-Ing. H. P. Barthelt reins. Representative at the European Patent Office European Patent Attorneys Webergasse 3 Postfach 348 D-7300 Esslingen (Neckar) 1R Änril 1QRfi Telephone Stuttgart I O. ftprii I3ÖD (0711) 356539 and 359619 ΡΆ 1 hSiiVi cn. ι jjacii Telefax (0711) 35 9903 Telex 7256 610 smru Telegram patent protection Esslingenneckar patent claims 1. Procedure for calibrating and regulating weighing devices with weight measurement by means of strain gauges, characterized in that for width ranges and elevation ranges, the calibration location and all designated for the weighing device A series of correction coefficients for changing the Gravitational acceleration can be determined that the latitude and altitude of the calibration location corresponding Correction coefficients introduced into a calculating device which calculates the weight and that then the weighing device depending on the place of use by entering the correction coefficient corresponding to the width and height of the place of use into the weight calculating computing device is regulated. 2. The method according to claim 1, characterized in that the entirety of the correction coefficients in the weighing device are stored, and that for calibration and regulation as a function the corresponding correction coefficients from the place of use by selecting the width range and Accounts: Deutsche Bank AG. Esslingen branch No. 304 014 (bank code 611 700 76) ■ Postscheck Stuttgart 624 51 -700 (bank code 600 100 70) i. ^ - L ^ T ^ J 3813238 of the height range of the calibration location and the location of use can be called up in order to use these correction coefficients to be entered into the arithmetic unit calculating the weight. 3. Apparatus for performing the method according to any one of the preceding claims 1 or 2, at a Weighing device with a load measuring unit, a weight calculation unit and a display unit, characterized in that a memory (5) is provided in which the predetermined correction coefficients corresponding values are stored for the change in the acceleration due to gravity as a function of the latitude and the altitude, that Selection devices (6) for selecting the stored values depending on the height and width and multipliers (4) are present between the weight calculation unit (2) and the display unit (3) are arranged, and through which the calculation result for weight determination in Depending on the selected values can be corrected.