SU1168908A1 - Device for controlling multiple weigher - Google Patents

Abstract

A DEVICE FOR CONTROLLING A MULTI-COMPONENT BATTERY, containing a weight sensor, the first comparison unit connected by the first input to the output of the first setter, the master oscillator, two pulse counters, the second setpoint generator and two load control units, which is similar to the fact that in order to improve reliability and simplify the device, it contains the second and third blocks of comparison, the converter analog-code and two elements And, the output of the master oscillator is connected to the first inputs of the elements And, the outputs of which are connected to the first input The corresponding pulse counters connected to the first inputs of the first and second comparison blocks, respectively. The output of the weight sensor is connected to the analogue converter input — a code whose output is connected to the first input of the third comparison unit connected to the second input of the first pulse counter, and output. - home - to the second inputs of pulse counters and to the second inputs of the first W and second elements AND, the output of the first comparison unit is connected with the third input of the second element And and with the first inputs of the first and second th load control units, the second input of the second comparator block soybeans. the dinen with the output of the second setter, IC3t and the code with the second input of the second 00 load control block, the second from the input of the first load control block connected to the start input of the device. 100

Description

The invention relates to a weight measuring technique and can be used for dispensing two or more components of a mixture into one dispenser, for example for dispensing coarse and fine sand in the manufacture of articles of cellular silica concrete in the building materials industry.

The purpose of the invention is to guide the plane and simplify the device.

The drawing shows a block diagram of the proposed device.

A device for controlling a multi-component dosing unit with a weight sensor 1, three comparison units 2-4, two setting points 5 and 6, a generator 7, two counters 8 and 9 pulses, two loading control units 10 and 11, an analog-to-code converter, two elements And 13 and 14.

The device works as follows.

According to the start metering signal, the first loading control unit 10 turns on an actuating mechanism, and the first component begins to flow into the dispenser. This changes the sensor readings. 1 weights which are converted by analogue code converter 12 into a digital binary binary code. The pulses from the master oscillator 7 are received through the first element I 13 into the first counter 8 until the TechPores until the number of pulses received into this counter becomes equal to the readings of the 12 analog – code converter, after which a command from the comparison unit 4 gives the signal the prohibition of elements And 13 and 14, the same signal zeroes counters 8 and 9. A new control cycle of the input information begins.

As the converter 12 reading is loaded, the code — the code increases, and there comes a time when the number of pulses received in the first counter 8 becomes equal to the chill set at the first setpoint 5, at which the dose of the first component is set. At this moment, the signal from the first comparison unit 2 is fed to the first loading control unit 10 to stop loading the first component, to the second loading control unit 11 to start loading the second component and to allow the pulses to flow through the second element 14 to the second pulse counter 9.

In the next control cycle, the information at the output of the converter 12 is en; When the number of pulses in the first counter 8 becomes equal to the number set on the first setting unit 5, a resolution signal arrives from the first comparison unit 2 at the input of the second element I 14, and the pulses from the master oscillator 7 enter the counters 8 and 9 pulses up to. until a match signal appears from the third comparison unit 4. The signal from the first comparison unit 2 to the load control blocks 10 and 11 is received, but does not change the previously recorded information, since the load control blocks 10 and 11 functionally represent a trigger, one of the inputs of which is given a start load signal, and the other - the end of the download. The loading of the second component continues until the number of pulses received in the second counter 9 of pulses becomes equal to the number set in the second task 6, on which the dose of the second component is set. If it is necessary to dose more than two components into one dispenser, new components are introduced into the control according to the algorithm specified for the second component.

The frequency of the master oscillator 7 is selected based on the component download rate so that the cycle of monitoring information received from converter 12 analog-code is less than the time for which the analog converter 12 readings change by one low-order unit.

Claims (1)

. DEVICE FOR MANAGING A MULTICOMPONENT DOSER, comprising a weight sensor, a first comparison unit connected by a first input to the output of the first master, a master oscillator, two pulse counters, a second master and two loading control units, characterized in that, in order to increase reliability and simplify the device, it contains the second and third comparison blocks, the analog converter is a code and two AND elements, and the output of the master oscillator is connected to the first inputs of the AND elements, the outputs of which are connected to the first inputs respectively of running pulse counters connected by the outputs to the first inputs of the first and second comparison units, respectively, · the output of the weight sensor is connected to the input of the analog - code converter, the output of which is connected to the first input of the third comparison unit connected by the second input to the output of the first pulse counter, and the output is to the second inputs of the pulse counters and to the second inputs of the first and second elements AND, the output of the first comparison unit is connected to the third input of the second element NIS by the first inputs of the first and second control units manual ultrasonic inspection, the second input of the second comparator unit connected to the output of the second setpoint, and an output - to a second input of the second load control unit, the second input of the first control unit connected to the input load starting.