SU1686315A1 - Weighing apparatus - Google Patents

Abstract

The invention relates to a weight measuring technique and allows for an increase in functionality due to the loss of liver flow measurement L WZ Lfirt and increased reliability. Input converter 6 you-. It is voltage that is proportional to the current weight value. This voltage is converted by the converter 10 into a frequency, which, through the measuring limit switching unit 11, passes through a matching circuit 14 to the counter 15, and through the output buffer 21 and the matching circuit 22 to the flow meter 24, the value of the higher bits of which through the pulse expander 31 and the amplifier 32 enters the electromechanical counter 33. The indicator 19 displays the current weight value, and the indicator 30 shows the total material consumption, for example, a week, a month, etc. Gil. w е ON 00 О СО СП

Description

This invention relates to a weight measuring technique.

The purpose of the invention is to enhance the functionality by providing a definition of decay and improving reliability.

The drawing shows a structural diagram of the weighing device.

The weighing device contains serially connected weight converter 1 to the angle of rotation, converter 2 angles to sinusoidal voltage with variable phase, forming converter 3 weights to voltage, converter 4 sinusoidal voltage to variable phase to angle, converter 5 angles into an analog signal, forming the input converter 6. The device also includes a master oscillator 7 square pulses, an inverter 8, a frequency divider 9, a voltage converter 10 - frequency, Lok J1 shift measuring limit, together forming the shaper 12 information, and clock pulses sinhroniziruyu- boiling.

The device also contains the first time interval generator 13, the first coincidence circuit 14, the first pulse counter 15 (the current measured weight counter), the reset signal generator 16, the register 17, the decoder 18, the first current weight indicator 19, which form the determination unit 20 current weight value.

In addition, the device contains an output buffer 21, a second coincidence circuit 22, a second time generator 23, a second pulse counter 24 (electronic total consumption counter), a Reset button 25, a first contact bounce eliminator 26, an OR circuit 27, a power switch 28, autorun circuit 29, second indicator 30 (total flow indicator), pulse expander 31, amplifier 32, third pulse counter 33 (electromechanical total flow counter), zero weight control element 34. The trigger 35, the third coincidence circuit 36, the fourth coincidence circuit 37, the material unloading fixation element 38, the second contact bounce control circuit 39. The elements from the 22nd to the 39th form a material consumption determination unit 40.

The elements forming the imaging unit 12 and the blcc 20 are made on the K 155 series of microcircuits, and the elements 22,23,24,26,27, 29, 31,35, 36, 37 and 39 - on the K 176 series of microcircuits, which have a greater noise immunity.

Buffer 21 separates device parts made on different elemental bases.

The weighing device operates as follows.

The dosing mass is placed in a container connected to a 1-weight transducer in a proportional angle of rotation of the axis on which the axis-2 rotation angle converter is attached to a sinusoidal voltage with a phase determined by the position of the axis, for example, a selsyn-sensor. The alternating voltage of converter 2 is transmitted to the input converter 6, consisting of a sinusoidal voltage converter 4 at the angle of rotation of the shaft, for example, a selsin receiver, and a proportional angle converter 5 placed on the shaft, such as a rotary potentiometer (not shown) connected to a constant voltage source. The voltage output of the potentiometer is proportional to the weight of the material being measured and is the output voltage of the converter 6, which is converted by the converter 10 into a sequence of pulses with a frequency proportional to the voltage value. The duration and polarity of the pulses are set by the generator 7 and the inverter 8.

The output voltage of the oscillator 7 without frequency division is used to eliminate the influence of the instability of the front of the low-frequency pulses of the formers of time intervals 13 and 23 and the converter 10. The synchronization of the time intervals formed by the formers of 13 m 23 is performed by the voltage divider 9 of the frequency.

The output signal of converter 10 has a frequency proportional to the weight of the material being metered, and is fed to block 20 directly, and to block 40 via buffer 21, which converts the signal to a higher level. This solution provides increased noise immunity of the flow determination unit 40 and is due to different types of indicators 19 and 30.

On the front of the change in the potential of the former 13, the pulse counter 15 is reset. In the counting interval, counters 15 and 24 read the pulses from the output of the converter 10. The counting interval is set by the imaging unit 13 and 23 so that the pulse counting results are combined with the measured weight in absolute units. The units of measure for the weight of the material being metered and its consumption are changed by block 11.

The results of counting pulses in block 20 for determining the current weight value are recorded in register 17 and through a decoder 18 that converts the counting result into the character symbol code 19, is displayed in the last contrast color to be perceived in red. The metering weight indication is used to implement the process in which the material is applied.

In the flow determination unit 40, the formation of a time interval is resolved only if an additional condition is fulfilled - the previous dose of material is discharged, i.e. the appearance of a pulse at the output of circuit 37. The latter is produced when the contact of element 38 is closed and the zero weight element 34 is fixed (according to the voltage of converter 5), the latter condition must be fulfilled only outside the reference interval, which is provided by the blocking signal of the trigger 35 removed by the driver 23 after completion of the reference interval.

The data of the counter 24 is transmitted to the indicator 30, which has a board of less contrasting color — green, whose readings are not reset during the operation of the device. Setting the zero value of the readings of the counter 24 is made by closing the button 25 or when power is applied to the device (closing contact 28). Obviously, during power interruptions, voltage recovery also causes the information of the electronic summing counter 24 to be reset. Therefore, the device provides for the expansion of the higher discharge pulses of the counter 24 by the pulse expander 31, their amplification by the amplifier 32 and the registration by the electromechanical counter 33 with a manual reset. The latter counter has lower accuracy (2-3%), does not provide sufficient speed weight for registering lower bits, but ensures reliable storage of data on material consumption during power interruptions and recording the flow for a time longer than the device’s switch-on interval (for example) per week, month, quarter, etc.

Claims (1)

A weight measuring device comprising a series-connected weight converter into a rotation angle and a rotation angle converter into a sinusoidal voltage with a varying phase, connected to a series-connected sinusoidal voltage converter with a varying phase into a rotation angle and the angle converter converting into an analog signal, a generator rectangular pulses, a frequency divider, a unit for switching the measurement limit, three pulse counters, a register and an element for fixing the unloading of the material, which is distinguished, in order to extend the functionality by ensuring the determination of the flow rate and increasing the reliability, into it A voltage to frequency converter is introduced. 0 inverter, two time interval formers, four coincidence circuits, a reset signal conditioner, a decrypt slip, two indicators, an output buffer, a Reset button, two debouncers 5 pins, OR circuit, power switch, autorun circuit, pulse expander, amplifier, zero weight control element and a trigger, the output of the angle of rotation into analog signal pod0 keys to one input of the voltage to frequency converter, a square pulse generator through an inverter is connected to another converter input 5 voltage to the frequency, to the input of the frequency divider, the first, the input of the output buffer, and the first input of the first time interval generator, to the second input of which the output of the frequency divider is connected, 0 connected to the second input of the output buffer, the third input of which and the first input of the first coincidence circuit are connected to the output of the voltage converter per hour through the switching unit of the measurement limit, the first output of the first time interval former is connected to the reset input of the first pulse counter, whose counting input is connected to the output of the first coincidence circuit, the second input of which is connected to the second output of the first time interval generator, the output of the first imp pulse pulses through the register and the decoder is connected to the first indicator, the Reset button through the first contact bounce circuit is connected to the first input of the OR circuit, and the power switch is connected to the second input of the OR circuit via the autorun circuit, the output of which is connected to the reset input of the second pulse counter, The first output of which is connected to the second indicator, and the second output through the pulse extender and the amplifier to the third pulse counter, to 5, the first output of the second time generator is connected to one input of the second coincidence circuit, the output buffer output is connected to its other input, and the second counter counter input is connected to the output of the second coincidence circuit, one output is The zero weight control element is connected to the coincidence connected through the second circuit. the installation of the Trigger in G, and the other of the contact bounce, the element of the fakvyhod- to the first input of the third scheme of the material unloading, to its second drop, to the second input of which the output of the third circuit is connected to the input-input of the third circuit, the trigger output, the reset input of which is drop 5, to the inputs of the second driver connected to the second output of the second for-time intervals connected outputs worldizer time intervals pulse-output buffer and the output of the fourth circuit ow, to the first input of the fourth coincidence circuit.