SU717554A1 - Metering-out system - Google Patents

Description

(

The invention relates to the field of BecoHsiytechnic engineering, in particular, can be used for dispensing concrete components in enterprises of the construction industry.

A device 1 is known, which contains selsindates for measurement, remote transmission of measurement results and dose setting, and an advanced sensor.

It is also known a device 2 comprising a selsyn sensor, the rotor of which is connected with the axis of the dial gauge pointer, the batch sensor and the control unit are digital, and the pulse shaper.

However, these devices provide only the required accuracy of the task in the autonomous mode of operation, but do not provide the necessary accuracy of weighing the dose and the correct dose of the component by volume weight.

The closest to the technical essence of the invention is a system for dosing 3, containing devices for dosing individual components with an unstable and stable bulk density, each of which contains five pulse shapers, elements AND, a source (torus power supply, control unit, the output of which is connected to to the dispenser, G K-trigger, RS-trigger, S-input of which is connected to BbiXogOM of the first element I, unit dosers connected through the second pulse shaper to the dose setting indusator, selsyn-sensor, whose mouthpiece It is connected with the axis of the arrow of the dose indicator, which is connected to the metering rate sensor, the output of which is connected to the first input of the dynamic correction unit, to the second input of which is connected a selsyn sensor, the first output of the dynamic correction unit is connected to the input of the first pulse shaper and its second output is with the input of the fourth pulse generator, the output of which is connected to the first input of the first epemen. And, the second input of which is connected to the output of the third pulse generator, whose input is connected n with the output of the reference power source connected to the input of the fifth pulse shaper whose output is sledinen through the first input of the second element

Both with the R-input of the RS-flip-flop and with the first and second inputs of the GK-flip-flop, the second input of the second element I is connected with the output of the first shaper and with the third input of the GK-flip-flop, the fourth and fifth inputs of which are connected to the outputs of the second shaper pulses.

However, these devices are prednazyacheny for up to SjyrS) Vani components only in avgonomnom mode and do not provide sufficient

ACCURACY and possibility of correction given

dose by volume of the other component.

one -. .

The need for correction is due to the fact that the components that make up the mixture, such as lightweight concrete keramsit concrete, by their bulk density are divided into components with a stable bulk density (cement, gravel, sand, gravel, water) and components with an unstable bulk weight (expanded clay, glass fiber ). When preparing a concrete mix, it is required to carry out a correction of a given dose of components with a stable bulk density of the product and the normal strength of the product with the required bulk density by bulk density of the component with an unstable bulk weight (claydite).

The aim of the invention is to provide automagical correction of a given dose of the components of the mixture by the bulk density of the component with an unstable bulk density while maintaining the required accuracy of dosing.

This goal is achieved by inserting a rectangular pulse sequence converter into a digital code, a comparison unit, a shaper of code signals, control keys, a sensor of a given volume, and a dosing mode switch, in a device for dividing components with an unstable volumetric mass. The digital pulses are connected to the output of the RS flip-flop and the input is connected to the input of the comparator unit, the other input of which is connected to the output of the signal conditioner, A switch of the dosing modes switch, and the outputs of the comparator unit are connected to control units of a device for dispensing components with a stable volume weight made on RC elements via controllable keys, and a sensor with a given volume of a component of an unsaturated volume mass and output G The K-flip-flop is connected to the control unit via a mode switch.

The invention is illustrated in the drawing, which shows a block diagram of a system for dispensing components (standing out of a KOMrtorfeHtai dosing device with an unstable bulk density and one of the devices for dispensing a component with a stable bulk weight.

Each device contains a dispenser 1, the axis of the dose indicator arrow is connected with the rotor of selsyn-da 1, 2, speed sensor and acceleration of dosing 3, dynamic correction unit 4, first pulse shaper 5, second and third pulse shapers 6 and 7, reference source power supply 8, quarter pulse generator 9, SC-trigger 10, elements 11, 12, RS-trigger 13, fifth pulse generator 14, PC-element-1 dose setting device 15, dose setting indicator 16, indicator 17 of the current value of the component mass and the control unit 18.

A device for dispensing a component with an unstable volumetric mass. Additionally contains a converter 19 of a sequence of rectangular pulses into a digital code, a comparator unit 20, a shaper of code signals 21, controllable keys 22, a sensor of a predetermined volume 23 and a switch of dosage modes 24.

The operation of devices for dispensing any component is as follows.

The angular position of the arrow of the dose indicator G is converted by the selsyn sensor 2, operating in the multiphase induction phase shifter mode, into a voltage whose phase is proportional to the angle of rotation of the arrow; and. the weights, the pulse shaper 5 forms a sequence of pulses, the phase shift of which is determined by the phase shift of the voltage of the single-phase winding of the selsyn-sensor 2 relative to the phases of the reference voltage of the network.

The dose command is set by the dose reference indicator 16 by the PS-circuit resistor 15. The voltage from the RC circuit is fed to the input of the second pulse generator 6 dose setting units that form a sequence of square-wave pulses, the duration of which is determined by the position of the RC circuit resistor motor

The sharp pulses of the first pulse generator 5 and the square pulses of the second pulse generator 6 arrive at the corresponding inputs (4th and 5th) trigger trigger GK 10. When the dose equal to the target is reached, the trigger tilts and gives a signal to the control unit 18 to stop dispensing.

Claims (3)

The on-line control of the current value of the component to be checked is carried out using the indicator 17. To increase the false alarms of the control unit 18 and the false indications of the indicator 17 during inertial escapes of the weighing system beyond the rioBopoia 360 ° and 0 ° angles, the rotor of the selsyn sensor crosses the stator magnetic axis The device is equipped with non-blocking. The transfer of the device for dosing into communication mode of operation in the system with correction of specified doses of other components by volumetric mass of the component with unstable volumetric mass is made by the switch of dosing mode 24, which translates control of the dosing component with unstable volumetric mass from trigger 10 to the sensor of the specified volume 23 and includes shaper coder pulses 21. In this case, the comparison unit. 20 compares the component weight being weighed with an unstable volumetric mass, expressed in digital code by the converter 19, with the set values of the code signals and, if they coincide, issues commands to the control keys 22 that change the parameters of the reference circuits of all other components. The choice of the number of keys is determined by the resolution increment. Correction of prescribed doses of other components is carried out continuously in the process of dosing a component with an unstable bulk density. When a control signal of a given volume 23 is issued, the dosing of a component with an unstable volumetric mass stops and the dosing of other components is allowed according to the corrected task. The shaper code signals 21 is made on the logical elements. The number of input code combinations is equal to the number of controllable keys. Comparison unit 20 is implemented on AND-OR-NOT logical elements. Each subsequent command saves all previous ones, and the processing of measurement results can be performed in a static mode. The converter of rectangular pulses into digital code 19 is executed on counters with filling with counting pulses from the generator: The number of pulses arriving at the counter is proportional to the current value of the weighed mass. Correction of a given dose of other components is made by automatically changing the time constant of the RC task circuit. As a result, the duration of the square impulse at the output of the second pulse shaper is changed accordingly. 6. Automatic introduction of a correction to the task of doses of other components ensures the stability of the bulk mass of the mixes (for example, expanded clay concrete) and other specified parameters (for example, the strength of the products). . DETAILED DESCRIPTION A dosing system comprising devices for dosing individual components with an unstable and stable bulk density, each of which contains five pulse shapers elements AND, a reference power supply, a power supply unit whose output is connected to the dispenser, G K-flip-flop, RS trigger, The S input of which is connected to the output of the first element I, the dose setter, connected through the second pulse shaper to the dose setting indicator, a selsyn sensor, the rotor of which is connected to the axis of the dose indicator arrow, which The torus is connected to a dorior speed sensor, the output of which is connected to the first input of the dynamic correction unit, to the second input of which a sensor is connected, the first output of the dynamic correction unit is connected to the input of the first pulse shaper, and its second output is connected to the fourth pulse shaper, The output of which is connected to the first input of the first element I, the second input of which is connected to the output of the third pulse shaper, the input of which is connected to the output of the reference power supply, to which rum input connected said fifth pulse shaper whose output is connected through per-. the output of the second element And with the R-input of the RS-flip-flop and with the first and second inputs of the GK-flip-flop, the second input of the second | element I is connected to the output of the first pulse generator and to the third input of the GK Trigger, the fourth and fifth inputs are connected to the outputs of the second pulse generator, which, in order to provide automatic correction of a given dose of the mixture components by the bulk density of the component with an unstable volume unit, while maintaining the required accuracy of dosing, into the device for dosing the compound HeHia with an unstable volumetric mass, a converter of a sequence of rectangular pulses into a digital d, a comparator, a shaper of code signals, controllable keys, a sensor of a given volume and a switch of dosing modes, a gate of the converter of a sequence of rectangular pulses into a digital code are connected to the output of an RS flip-flop, and the output to the input of a comparator whose other input is connected to the output of the shaper of the code signals connected to the output of the switch of the dosing modes, and the outputs of the comparator unit through controlled keys are connected to the set points of the mass of the dosing devices comnoHeHTOB with stable o Removable mass formed on RC-elements, and the sensor output za77175548 of this volume of the device dosing com-1- USSR Copyright Certificate N "387221, Ponentas unstable bulk density and the trigger output 6k are connected to the control unit 1 via a mode switch. Sources of information taken into account in the examination cl. G 01 G 13/24. 1970. 2. USSR author's certificate N 523301, cl. G 01 G 13/28, 1975. 5 3. Copyright Institute for the Application N "2482365 / T -K cells: And 05 D 11/13. 1977. To dozapyuru 2nd koiponen KJioia Pg -zgiiQMMHe u Y (lo3afmffa (n-t) components To dazapkuup th copy . (IJU | h