SU1668872A1 - Electronic scale - Google Patents

Abstract

The invention relates to weighing technology and allows to increase the accuracy of weighing the masses of various weights by doubling the linearization sections when processing signals from the sensor. After starting the microprocessor 2 and pressing the "Tara" button, the RS - trigger 9 is zeroed out and the diode matrix 5 corresponding to the first half of the weighing range (MPE) and the true weight of the load is connected. When weights are loaded into the second PDV, the matrix 5 operates before the overload signal, which sets the RS flip-flop to one, which switches the matrix switch 11 and the latter starts to pass signals from the diode matrix 6. And in this case, to get the true weight to the value written a trigger is added to the trigger, corresponding to the value of half the measured range. When the weight decreases below the PDV when the matrix 6 is turned on, microprocessor 2 perceives the weight as negative, reset RS = trigger 9 and switches the matrix switch 11 to work in the diode matrix 5, i.e. in the first PDV. 1 il.

Description

The invention relates to a weight measuring technique, can be used · to measure the masses of various cargoes and is an improvement on the author St. No. 1483280.

The aim of the invention is to increase the accuracy of weighing by doubling the linearization sections during signal processing from the sensor.

The drawing shows a functional diagram of the balance.

The balance contains a lifting platform with a vibrational frequency converter 1 force, a microprocessor 2, an initial pulse generator 3, a clock clock generator 4. stots, the first 5 and second 6 diode arrays, eight elements of 7 co-ownership, element 8 addition, RS-trigger 9, encoder 1Q keyboard, switch 11 matrices, the first 12 and second 13 binary-decimal adders, five trigger® 14-18 digits , six 1924 binary decimal register registers and six digital indicators 2 & -30. ''

The outputs of the primary power converter 1, the generator 3 of the initial one 11, the control input of the first eight inputs of the matrix switch 11 is connected to the direct output of the RS-trigger 9, the control input of the second eight inputs of the matrix switch 11 is connected to the inverse output of the RS-trigger 9, R-input which through the addition element and the S-input are connected to the corresponding outputs of the microprocessor 2. the outputs of the matrix switcher. 11 are connected to the polling inputs of microprocessor 2. One contact of the second pair of the Tara key is connected to the second input of the addition element 8, and the other contact is connected to the common key of the power source.

The outputs of the triggers 14-16 and the outputs of the first 12 and second 13 binary decimal adders are connected respectively to the information inputs of the registers-decoders 19-23, the synchronization inputs of which are connected in parallel to the output of the clock pulse of the microprocessor 2.

The paired zero weight value is carried out from the transfer output of the first binary-decimal adder 12 to the bias input of the second binary-decimal adder 13, the transfer output of which is connected to one of the information inputs of the register-decoder 24, the remaining inputs of which I are connected to the power source.

. The outputs of the registers-decoders 1924 are connected respectively to the inputs of digital indicators 25-30.

Electronic scales work as follows.

When the supply voltage is turned on, the frequency from the vibration frequency sensor 1 is fed to the input of the microprocessor 2 from the initial pulse generator 3, after an exposure time of 40 times 1 s, a pulse arrives that. launches microprocessor 2, the operation of which is synchronized by a clock generator 4.

When you press the Tara key, srabats | contacts of the second pair and through the addition element 8, the RS flip-flop 9 is reset, as a result of which the diode array 5 corresponding to the first half of the weighing range is connected. The signal from the first 50 contact pair through the keyboard encoder 10 is fed to the keyboard input of the microprocessor 2, and all zeros are displayed on the fta digital indicators.

When the scales are loaded to half the range, the RS-trigger 9 is zeroed and there is a logical 1 on its inverse output, and a logical O on the direct one. Matrix switch 11 passes signals from the diode matrix 5 corresponding to the first half of the weighing range to the input. During the transition of the pulse and the clock generator 4, they are connected respectively to the input of the sensor signals, - the input of the initial conditions and the input of the taiga frequency of the microprocessor 2, the outputs and polling inputs of which are connected respectively to sxbd and the outputs of the diode array 5. The encoder input is connected to the clock outputs by the keyboard microprocessor: pa 2, a. output through the first pair of contacts of the key Taraconnected to the keyboard input of microprocessor 2.

In addition, the outputs of the weight values of the microprocessor 2 are connected in parallel with the information inputs 5 of the triggers 1418 record numbers, moreover, the C-inputs of the trigger! Ditches 14-18 are connected respectively to the third, eighth, fourth, first and fifth • outputs of the microprocessor 2 clock pulses. The outputs of the triggers 17 and 18 are connected to the first four-digit inputs of the first and second binary decimal adders 12 and 13, respectively, the second inputs of which are connected to the outputs of eight coincidence elements 7. The first inputs of the elements are 7 matches. in parallel, they are connected to the direct output of the R S-flip-flop 9, and a binary-decimal code equal to half the upper limit of the measurement of the weights is set to the second eight inputs of the coincidence elements 7.

The outputs of the diode arrays 5 and 6 are connected respectively to the first eight and second eight inputs of the matrix commutator to load in the second half of the range, the diode array 5 is operated until an overload signal appears, which sets the RS-trigger 9 to unity, i.e. logic direct 1 on the direct output, and logical 0 on the inverse, which leads to switching of the matrix switch 11, which starts passing signals from the diode array 6, while the logical Г at the output of the RS-flip-flop 9 opens the passage of code 10 from the output of element 7 matches to the inputs, binary decimal adders 12 and 13. To the inputs of the torus triggers, five triggers for writing digits, three re14-18, information about the measured binary decimal weight decryptor decoder is recorded, which is recorded in code trigger 15 and three digital indicators , corresponding clock pulse.

When working with diode array 5, this is the true weight, and when working with diode array 6, to obtain the true weight value, a value corresponding to the value of half the measured range is added to the value recorded in the trigger.

On the binary decimal adders 12 and 13, the code y is added (where -N is the measuring range) with the weight value recorded in the triggers 17 and 18, corresponding to the highest weight digits.

Information recorded in: triggers 14-16. arrives at registers-decoders 19-21, respectively, and from the output of binary-decimal adders 12 and 13 - to registers-decoders 22 and 23.

When the weight decreases below a value equal to half the measuring range with the diode array 6 turned on, the microprocessor 2 perceives the weight as negative and generates a signal that resets the RS flip-flop 9, switches the matrix commutator 11 to work in the diode array 5, and prevents the code from passing through element 7 coincidence, after which the signal, zeroing the RS-trigger 9, disappears and the balance works in the first half of the measuring range.

the frequency of the microprocessor, the outputs of the clock pulses of which are connected to the inputs of the diode array and the inputs of the keyboard encoder, the output of the keyboard encoder through the first pair of contacts of the Tara key is connected to the input of the keyboard of the microprocessor, characterized in that. in order to increase the accuracy of weighing, they introduced a second diode matrix, matrix switcher, eight coincidence elements, an addition element, an RS trigger, two binary decimal sums, the outputs of the microprocessor weight are connected in parallel with the information inputs of five triggers for recording the digits whose C inputs are connected to the corresponding outputs of the microprocessor clock pulse, the outputs of the first three triggers for recording numbers are connected respectively to the information inputs of the first three registers-de25 encoders, the outputs of the fourth second and fifth.

The triggers for recording the digits are connected to the first four-digit inputs of the first and second binary-decimal adders, respectively, to the second inputs of which are connected the outputs of eight coincidence elements, the first inputs of which are parallel. are directly connected to the direct output of the RS trigger, the outputs of the first and second binary decimal adders are connected respectively to the information inputs of the fourth and fifth registers of the decoders, and the output of the zero-transfer of the first binary decimal adder is connected to the input of the second binary decimal adder, the transfer output of which is connected to the information input of the sixth register-decoder, the remaining inputs of which are connected to the power source, in addition * the outputs of the first diode array are connected to the first eight inputs matrix switch, the outputs of the second diode matrix are connected to the second eight inputs of the matrix switch, the control input of the first eight inputs of the I matrix switch is connected to the direct output of the RS trigger, the control input of the second eight inputs is connected to the inverse output of the RS trigger, the R input of which is through the addition element and S - the input is connected to the corresponding outputs of the microprocessor, the synchronization inputs of the register-decoders are connected to the outputs of the clock pulse of the microprocessor, the outputs of the matrix switcher are connected to polling ' ¹ microprocessor inputs, one contact

Claims (1)

Claim Electronic scales containing a platform with a vibration frequency power converter, a microprocessor, an initial 50 pulse generator, a clock generator, a diode matrix, a keyboard encoder, three binary decimal decoding registers, three digital indicators, a power source, and the outputs of the vibration frequency converter, generator the initial pulses and the clock generator are connected respectively to the input of the sensor signals, the input of the installation of the initial conditions and the input Ί 1668872 8 ^ of a pair of Tara keys connected to the moves of the registers-decoders are connected to the second input of the addition element, and the other, respectively, to the inputs of the digital indicators Contact - to a common power source, the speakers.