SU1081479A1 - Device for determination of material fractional composition - Google Patents

Abstract

USTROYSTYU for determining the fractional composition of materials, comprising a set of screens associated with the vibratory drive mounted above the tray and Vesoizmeritel and the switch coupled to the gate of switching elemenTOBf .The inputs of three outputs which are associated with ner, Vym three electrodes analog storage cells provided with devices registriruischimi , and the inputs; With the positive electrodes, the weighing device, which is different from the fact that, in order to increase the efficiency of the device, it contains a sample mass simulator, included Consequently, between the triggered electrode cm of the load cell and the second electrode, the latter is in the process of switching the analogue recording cell, the first in the process of measuring the analogue memory, the cell is equipped with an additional output, the negative electrode of which is connected to the negative electrode of the weight meter, and the positive output is connected to the negative electrode of the weight meter, and memory cell, with the second electrode of the first ansShog storage cell being connected directly to the positive weighing electrode I eat -. about 00 4ik CO

Description

The invention relates to a measurement technique, is intended to determine the properties of bulk materials and can be used in the construction, metallurgical and other industries.

A device for controlling the fractional composition of asbestos fiber, consisting of a fraction separator and a weight meter, is known. A sample of the nocTjoiaeT material on the fraction separator, the fractions obtained are weighed and the percentage Cl is calculated from the weighing results.

The disadvantage of the device is the need to use handles. labor in the analysis associated with the collection of fractions and their weighting.

A device is known for determining the composite composition of bore materials comprising a hopper, a vibrator, a frame with a set of stacked sieves with a tray, a chute and weighing

devices with computing unit. The test material is divided into fractions, the order fraction is weighed alternately, and the data is processed by a G2 J computing unit.

The disadvantage of this device is the low measurement efficiency associated with the sequential weighing of the fractions.

The closest technical solution to the invention is a device for determining the fractional composition of materials containing a set of sieves associated with a vibration drive and mounted above the weight plate, a switch connected to the control inputs of three switching elements whose outputs are connected to the first electrodes three analog memory cells, equipped with registration devices, and inputs with a positive electrode of the weight meter. The device also contains a unit for calculating the percentage content of the fractions, which includes totalizers

and division blocks CsJ.

I

A disadvantage of the known device is the complexity of the analogue-computing computational scheme of the percentage ratio of the components, due to the presence of adders and division blocks, through which the outputs of the analog storage cells are connected to the registering device, which leads to additional costs for data processing and reduces express analysis.

The aim of the invention is a noBi expresso, operation of the device by simplifying the structure.

This goal is achieved by the fact that a device for determining the fractional composition of materials containing a set of sieves associated with a vibration actuator and mounted above the weight plate, a switch connected to the control inputs of three switching elements, the outputs of which are connected to the first electrodes of the three analog memories. The cells equipped with a recording device and the inputs with a positive weighing electrode contain a sample mass simulator connected between the negative electrode of the weighing device and the second electrode of the latter during the switching process of the analog storage cell, the first one in the switching process of the analog storage cell is equipped with an additional output negative. the electrode of which is connected to the negative electrode of the weight meter, and the positive one is connected to the second electrode of the second analogue memorized dey cells, the second electrode of the first analog storage cell is directly connected to the positive electrode of the weight meter.

The sample mass simulator is a source of constant-phase surge, the value of which is proportional to the mass of the sample being analyzed and is set during adjustment of the entire device.

The drawing shows a diagram of the proposed device.

The device for determining the fractional composition contains a set of sieves 1–3 with a common drive 4, a weight gauge 5 with a load receptor and a bunker 7, a switch 8 made on the basis of the command device 9 and switching elements 10–12, analog storage cells 13–15 component sizes connected with output metering device 5, electric simulator

16 test masses, connected to the output of the weight measuring device 5 and to the input of the third analog storage cell 15, recording instruments

17-19, all of which are connected respectively to the outputs of the analog storage cells 13-15.

The pipe 20 is designed to receive and unload the oversize product from sieve 1 onto the conveyor 21 of the technological chain. Sieve 1-3 jkecTKO are fixed respectively on shafts 22-24 and connected with serially manufactured mechanisms. A device for determining the friction composition works as follows. A sample of the test material, such as asbestos, of a certain mass is thoroughly mixed and loaded onto sieve 1. With the help of drive 4, a set of sieves 1–3 with aperture size of 4, 8, 1.35, and 0.25 mm, respectively, is activated for | two minutes . In this case, the asbestos fiber is divided into fractions: the nadretic fractions of the I-3 sieves and the undersize fraction of the sieve 3, which through the hopper 7 is discharged directly into the reception room plate: b of the weight gauge 5. After two minutes, the drive is disconnected. After stopping | drive 4, the upper sieve 1 in the automatic mode; the Chesky mode with the execution mechanism turns over and the sieve fraction overflows through the chute 20 to the conveyor 21. To determine the size of the screen sieve fraction 3, the command 8 from the switch 9 of the switch 8 is closed electrically circuit through a commuting element 12, and a voltage proportional to the sublattice mass. The fractions of the sieve 3, is fed from the weight measuring device 5 to the input of the first storage analog: cells 13, is stored there and recorded on a registrar device 17 connected to the first output of the cell 13. Then the sieve 2 is thrown, the fraction of which passes through the hopper 7 into the load box. plate b of the weight measuring device 5. On command from the instrument 9, the electrical circuit is opened through the commutating element 12 and the element 11 is closed through commutations. At the same time, the second output of the analogue memory of the recipe 13 is connected to the opposite output in commensurator 5 and to the input of the second analog storage cell 14. At the output of the weight measuring device 5, a voltage appears proportional to the sum of the sub-mass masses (fraction 3 and 3 of the sieve sieve 2. The differential voltage removed from the outputs of the weight measurement 5 and analog gain) cells 13 in the memory of which a voltage proportional to the mass of the sublattice fraction of the sieve 3 is fixed is proportional to the mass of the superlattice fraction of ait 2. It is fed to the analog storage cell 14, stored there and recorded Three-arm with device 18, connected to the output of cell 14. Then, the oversize fraction of the sieve 3 is unloaded on the load-receiving plate b of the weight gauge 5 armature of the bunker 7. and closes through commutator element 10, and the output of the electrical simulator of the sample mass. 16 is counter-connected to the output of the weight gauge 5 and to the input of the third analog memory of cell 15. The voltage on the Btiix measurement weight is proportional to the sum of the masses of the oversize products of the sieve 2 and 3 and the sieve of the sieve of the sieve 3. The differential voltage from the counter output voltages is measured electric simulator 16 Massi Pro-proportional to the mass; oversize fraction of the sieve 1. This is: the input is fed to the input of the analog memory cell 15, remember: it is found in it and recorded on the registrar device 19 connected to the output of cell 15. All information on the mass fraction of the sieve i1 and 2 sieves is necessary and the sublattice fraction of the sieve 3 is fixed according to the registering devices 19 - 17 and stored until the next measurement cycle. Sieve 1-3 return to its original position, and the device is ready for operation. Exclusion from the unit of the calculation of the percentage: fractions reduces the time for data processing. The unloading of the oversize fraction of the upper sieve directly into the process chain, and the undersize fraction of the lower sieve into the load-carrying plate of the weight gauge, allows you to increase the express control and thereby quickly and reliably control the process.

Claims (1)

! DEVICE FOR DETERMINING THE FRACTIONAL COMPOSITION OF MATERIALS, containing a set of screens connected to a vibro drive and mounted above a load cell, and a switch connected to control inputs of three switching elements / outputs of which are connected to measuring electrodes of three analog storage cells equipped with register devices and inputs with positive electrodes of the weight meter, characterized in that, in order to increase the expressness of the device, it contains a simulator of sample mass, included after ovatelno between etrii-negative electrode vesoiemerytelya and second electrode "* last in the process of switching the analog memory cell, the first process of switching the analog eapomi * huge capacity cell equipped with an additional outlet" *, the negative electrode _o (which is connected to the negative 5S electrode Vesoizmeritel and positive - with the second electrode of the second analog storage cell, and the second electrode of the first analog storage cell is connected directly to the positive electrode of the weight meter ·.