RU2753251C1 - Apparatus for estimation of flotation activity of reagents in chemical group composition - Google Patents

Abstract

FIELD: computational technology.

SUBSTANCE: invention relates to computational technology and can be used to measure surface tension and estimate the impact of reagents on the flotation process. The apparatus for estimation of flotation activity of reagents in a chemical group composition is comprised of a vibration-resistant base whereon a tub is located covered with a fixed barrier with limit switches located thereon, and a movable barrier rigidly connected with the carriage, whereon a measuring element is fixed, wherein a movable barrier control module, a filtering module, an input data buffer, a central control module, a relaxation curve calculation module, an output data random access memory apparatus, an indication module are introduced, wherein the input of the movable barrier control module is connected with the fourth output of the central control module, the output of the filtering module is connected with the input of the input data buffer, the first input of the central control module is connected with the first output of the input data buffer, the second output of the input data buffer is connected with the first input of the relaxation curve calculation module, the second output of the relaxation curve calculation module is connected with the first input of the output data random access memory apparatus, the second input of the central control module is connected with the first output of the relaxation curve calculation module, the first output of the central control module is connected with the second input of the relaxation curve calculation module, the first output of the central control module is connected with the second input of the relaxation curve calculation module, the first input of the indication module is connected with the third output of the relaxation curve calculation module, the third output of the central control module is connected with the third input of the indication module, the output of the output data random access memory apparatus is connected with the second input of the indication module, the second output of the central control module is connected with the second input of the output data random access memory apparatus.

EFFECT: improved accuracy of calculation of the level of contribution of separate groups of reagents to the overall flotation picture in real time.

1 cl, 1 dwg

Description

The invention relates to computer technology and can be used to measure surface tension and assess the effect of reagents on the flotation process.

Known device for automatic measurement of the flotation activity of reagents (US Pat. RF No. 130079, IPC G01N 13/02, 2013), consisting of a vibration-resistant base on which the bath is located, covered with a fixed barrier rigidly connected to the carriage, which is kinematically connected to the reversible motor and on which the scales with the measuring element are fixed.

The disadvantage of this device is the inability to calculate the share of the contribution of individual groups of reagents to the overall flotation picture.

The closest to the proposed device is a device for measuring the surface tension of a liquid and assessing the flotation activity of a reagent (RF patent No. 2349899, IPC G01N 13/02, 2009), containing an optical microscope, seated bubble holders, a bubble illumination system, a digital camera, a block calculation of the surface tension value, block for calculating the parameters of flotation activity of reagents, video RAM, output RAM, digital camera controller, bus controller, time counter, block control circuit.

Evaluation of the flotation activity of reagents is based on calculating the surface tension from a digital image of a gas bubble in a liquid using a unit for calculating the parameters of the flotation activity of reagents (FVPFA).

The disadvantage of this device is the high computational complexity of calculations associated with calculating the surface tension along the contour of a gas bubble in a liquid. Also, the disadvantage is the need to create suitable conditions for photographing the bubble, which does not allow real-time readings of surface tension.

The technical objective of the invention is to improve the accuracy of calculating the contribution of individual groups of reagents to the overall flotation picture in real time.

The problem is solved by the fact that in the device containing a vibration-resistant base, on which the bath is located, covered with a fixed barrier, with limit switches located on it, and a movable barrier rigidly connected to the carriage, on which the measuring element is fixed, a movable barrier control module is introduced, the module filtering, input data buffer, central control module, relaxation curve calculation module, output data random access memory, display module, and the input of the movable barrier control module is connected to the fourth output of the central control module, the output of the filtering module is connected to the input of the input data buffer, the first input the central control module is connected to the first output of the input data buffer, the second output of the input data buffer is connected to the first input of the relaxation curve calculating module, the second output of the relaxation curve calculating module is connected to the first input of the random access memory. one data, the second input of the central control module is connected to the first output of the relaxation curve calculating module, the first output of the central control module is connected to the second input of the relaxation curve calculating module, the first output of the central control module is connected to the second input of the relaxation curve calculating module, the first input of the display module is connected with the third output of the relaxation curve calculating module, the third output of the central control module is connected to the third input of the display module, the output of the output data storage device is connected to the second input of the display module, the second output of the central control module is connected to the second input of the output data storage device.

The invention can be used to analyze the calculation of the contribution of individual groups of reagents to the overall flotation picture.

The essence of the invention is illustrated by figure 1, which shows a block diagram of a device for assessing the flotation activity of reagents in a group chemical composition.

The device contains a control module for a movable barrier 1 (MUPB 1), a filtering module 2 (MF 2), an input data buffer 3 (BFD 3), a central control module 4 (CMU 4), a module for calculating relaxation curves 5 (MVRK 5), output RAM data 6 (RAM VD 6), display module 7 (MI 7), and the input MUPB 1 is connected to the fourth output of the CMU 4, the output of MF 2 is connected to the input of the BVD 3, the first input of the CMU 4 is connected to the first output of the BVD 3, the second output of the BVD 3 is connected to the first input of the MVRK 5, the input of the MF 2 is designed to receive the input signal and its filtering, the second output of the MVRK 5 is connected to the first input of the RAM VD 6, the second input of the CMU 4 is connected to the first output of the MVRK 5, the first output of the CMU 5 is connected to the second input MVRK 5, the first output of CMU 4 is connected to the second input of MVRK 5, the first input of MI 7 is connected to the third output of MVRK 5, the third output of CMU 4 is connected to the third input of MI 7, the third input of CMU 4 is intended for connecting an external device, the output of RAM VD 6 is connected to the second input of MI 7, the second output of the CMU 4 with is single with the second input of RAM VD 6.

MF 2 is designed to filter the input values coming from the measuring element, BVD 3 is intended for temporary storage and transmission of input data to CMU 4 and MVRK 5, MVRK 5 provides the calculation of relaxation curves and finding the cutoff points of the exponent on the graph, the coordinates of the points of which are transmitted through the communication line in RAM VD 6, MI 7 is designed to indicate the state of analysis of flotation activity, MUPB 1 is designed to control the motor rotating a shaft with a carriage on which a measuring element is installed, CMU 4 is designed to issue control signals to MUPB 1, MI 7, MVRK 5, VD RAM 6.

The device works as follows. A signal is received from the external device to the input of CMU 4, which initiates the start of the analysis process, CMU 4 generates a control signal for the MUPB 1 module. tensions that differ from the last 100 values by more than 50%, while the MF 2 operates at a transmission rate of 1000 readings per second. The filtered values through the communication lines are sent to the BVD 3 from where they are read by the MVRK 5. The values received by the MVRK 5 at this stage are the coordinates of the points of the dependence of the readings of the measuring element on time. It is known that the surface tension curve during a change in surface area is the sum of a number of exponentials. The numerical values of the exponent coefficients quantitatively characterize the flotation activity of the reagent. The determination of the values of the coefficients is carried out by decomposing the curve of the dependence of surface tension on time into the sum of elementary exponents [Melik-Gaikazyan VI, Emelyanova NP, Draganov A.V. On the instrumental assessment of the flotation activity of apolar reagents and their combinations with various substances used in froth flotation. / Enrichment of ores 6 (236), 1994]. The result of the work of MVRK 5 is the coordinates of the points of the beginning of the resulting exponents and the values of the exponent coefficients that quantitatively characterize the contribution of individual groups of reagents. The quantitative characteristics of the reagent are the obtained values, transferred by the MVRK 5 to the RAM of the VD 6. Also, the MVRK 5 generates a control signal for the CMU 4 and MI 7 about the end of the analysis process. CMU 4 generates a control for the end of the analysis process for MUPB 1, which in turn generates a signal to stop the movement of the carriage. CMU 4 generates a signal of permission to read data for MI 7 intended to indicate the analysis of flotation activity, the resulting coefficients and the number of cut-off points with their quantitative characteristics. To implement MI 7, displays such as TFT LCD 128x128 can be used. CMU 4 is implemented on an Atmel ATmega328 microcircuit or similar. MVRK 5 is implemented on a controller with ARM Cortex-A7 microarchitecture.

The use of the invention makes it possible to determine the parameters characterizing the contribution of individual groups of surfactants in the group composition to the value of the flotation activity of the reagents.

Claims (1)

A device for assessing the flotation activity of reagents in a group chemical composition, containing a vibration-resistant base on which a bath is located, covered with a fixed barrier, with limit switches located on it, and a movable barrier rigidly connected to the carriage, on which a measuring element is fixed, characterized in that that a movable barrier control module, a filtering module, an input data buffer, a central control module, a relaxation curve calculation module, an output random-access memory, an indication module are introduced, and the input of the movable barrier control module is connected to the fourth output of the central control module, the output of the filtering module is connected to the input of the input data buffer, the first input of the central control module is connected to the first output of the input data buffer, the second output of the input data buffer is connected to the first input of the relaxation curve calculator, the second output of the relay calculation module cation curves is connected to the first input of the output random access memory, the second input of the central control module is connected to the first output of the relaxation curve calculating module, the first output of the central control module is connected to the second input of the relaxation curve calculating module, the first output of the central control module is connected to the second input of the module for calculating relaxation curves, the first input of the display module is connected to the third output of the module for calculating relaxation curves, the third output of the central control module is connected to the third input of the display module, the output of the random access memory of the output data is connected to the second input of the display module, the second output of the central control module is connected to the second the input of the random access memory output.

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