SU1696888A1 - Method of calibration of electronic balance - Google Patents

Abstract

The invention relates to weighing technology, and more specifically to electronic scales with a microprocessor. The purpose of the invention is to improve the calibration accuracy. The method of calibration of electronic scales is carried out as follows. The calibration mode is turned on, the digital reading scale 5 is nullified, the code of the unloaded scales is written into the cell of the Tara code of the microprocessor 4, the initial values of the digital integration cycle code are changed in the microprocessor 4, increasing the averaging time, and the code of the discrete digital reference scale 5, reducing the discrete price the values of the reference scale, as well as additionally entering into the memory of the microprocessor 4, the code of the actual value of the mass of the calibration weight 12, is set in the center of the cup 3 of the calibration weight 12, calculate the scale Abrading calibration coefficient by microprocessor 4 with respect to the actual mass value of calibration weight 12, turn off calibration mode and at the same time return the digital integration cycle code and digital sampling value discrete value code in the microprocessor 4 to the original values. 1 silt: y

Description

The invention relates to a weighing technique, power to electronic scales with a microprocessor.

The aim of the invention is to improve the accuracy of calibration.

The drawing schematically shows an electronic scale with a microprocessor.

A device that implements the method consists of electronic scales 1, which includes a weighing device 2 with a lifting cup 3, a microprocessor 4, a digital reading scale 5, a control unit 6 with buttons Calibration 7 and Tara 8. Additionally, trigger 9 is introduced into the electronic scale 1 circuit calibration mode memory, set by first pressing the 7 button. Calibration to 1 ”, and the second pressing to the initial state O.

A programmable matrix 10 is also introduced, which is turned on and off by the button 7 Calibration through the trigger 9 of the memory of the calibration mode, and at the output it has two channels for controlling the modes of the microprocessor 4, the digital integration time changes (increases by at least four times) along the first channel, by the second decreases at least twice the price of the discrete value of the reading scale 5. Using the additional keyboard 11, the code t _K is entered into the microprocessor 4 memory of the actual mass value calibration d 'weights 12, which when calibrated is installed in the center of the cup 3

An additional keyboard 11, when connected to the information buses of microprocessor 4, allows you to set the codes of the true values of the mass of the calibration weight and is periodically interrogated ^;; microprocessor in electronic calibration mode. The trigger 9 memory calibration mode when you press the button 7, the Calibration is set to state 1, in which the output of the programmable matrix 10 changes the value of the codes dm ntocp. The programmable matrix 10 periodically interrogated by the microprocessor provides the formation of codes dm and t ₀ <: p depending on the state of trigger 9.

If trigger 9 is in state 1, then at the output of matrix 10 there are dm and t _0C p codes, the values of which are selected during calibration, if trigger 9 is in state 0, then at the output of matrix 10 there are dm and t _0C p codes, whose values are selected at weighing i.e. during normal operation of the balance when measuring mass. The actual mass value of the calibration weight 12 is measured on a reference scale with an accuracy exceeding the price of the discrete value of the reference scale by 10-100 times. For example, the accuracy of the value of the actual mass of the calibration weight for the scale model of RES-1 kg is ± 0.5 kg, this value is recorded with such accuracy in the additional keyboard 11.

The method of calibration of electronic scales is as follows.

By pressing button 7 of the control unit 7 Calibration, the microprocessor 4 of the electronic balance is switched into the Calibration mode and at the same time the trigger 9 of the calibration mode memory is set to a single state, which includes the programmable matrix 10, which changes the initial value of the tocp code of the digital integration cycle in microprocessor 4, increasing the averaging time , and the code dm of the discrete value of the digital reading scale 5, decreasing the price of the discrete value of the reading scale 5, At the same time using the additional keyboard 11 enter d additionally in the memory of the microprocessor code actual value t _kg calibration weight 12, the mass is selected constructively. Moreover, this calibration weight is eternal, i.e. if after some time its mass has changed, then a new actual mass value is determined on the model scales, and using the additional keyboard 11 a new mass value of the calibration weight 12 is entered into the memory of the microprocessor 4. “The actual mass value of the calibration weight 12 is periodically checked on the model scale (for example, every six months). Before installing the calibration weight 12, press the button Tara 8, reset the digital reading scale 5, record-. the code of the unloaded scales is inserted into the Tara code cell of the microprocessor 4, while the accuracy of the recorded code increases in accordance with the decrease in the code from the discrete digital reading scale 5.

The calibration weight 12 is installed in the center of the cup 3, the code of the loaded scales is fixed, the scaling calibration coefficient is calculated by the world processor 4 with respect to the actual value of gp _K g of the weight of the calibration weight 12.

The code for loaded weights, as well as the code for unloaded weights, is generated with a reduction of at least twice the price of the discrete value of the reference scale 5 for a digital integration (averaging) time increased by at least s four times. Turn off the calibration mode by pressing the 7 Calibration button 7 again and remove the calibration gauge 12 from the cup 3.

When the button 7 is pressed again, the calibration trigger 9 of the calibration mode memory is set to the initial state О, the signal from its output through the programmable matrix 10 returns to 1 microprocessor 4 the tocp code of the digital integration cycle and the dm code of the discrete value of the digital reading scale 5 to the initial values used for weighing, and only during calibration, the value of the indicated codes changes.

Thus, the calibration accuracy 6 in the proposed method for calibrating electronic weights is improved by applying a calibration weight with a known code 1 of the actual mass value and calculating the scaling calibration coefficient by the microprocessor in relation to the actual mass value of the calibration mass, and not to the nominal 2 value, which eliminates the error of deviation of the actual mass from the nominal value. The value of the actual mass is measured with an accuracy of 10-100 times less than the price of the discrete division of the digital 2 reading scale.

Claims (1)

Claim The method of calibrating electronic scales, which consists in turning on the calibration mode, zeroing the digital reading 3 scale, writing the code of the unloaded scales in the Tara code cell of the microprocessor, setting the weight in the center of the cup, fixing the code of the loaded scales, calculating the scaling calibration coefficient using 5 microprocessors, turn off the calibration mode and remove the weight, characterized in that, in order to increase the accuracy of calibration, simultaneously with the inclusion of the calibration mode, the initial values in the microprocessor are changed ode of the digital integration cycle, increasing the averaging time, and the code value of the discrete value of the digital reading scale 5, decreasing the price of the discrete value of the reading scale, and also entering into the microprocessor memory the code of the actual mass value of the calibration weight, the mass of which is equal to any 0 structurally selected value, is set to the center of the cup is a calibration weight, the scaling calibration coefficient is calculated by the microprocessor with respect to the actual value of the 5 mass of the calibration weight, at the same time but off the calibration mode is returned to the microprocessor code loop digital integration and code values increment the reference digital scale is0 Khodnev values.