SU1262348A1 - Device for analyzing disperse composition of powders - Google Patents

Abstract

A DEVICE FOR ANALYSIS OF A DISPERSE COMPOSITION OF POWDERS, contains a powder dispenser, a charging chamber, a precipitation capacitor with induction fraction charge sensors, high-voltage sources for powering the charge chamber and a precipitation capacitor, an electrometric amplifier, blower, static neutralization unit and a neutralization unit and a neutral generator. , characterized in that, in order to improve the accuracy of measuring the dispersion composition and expanding the range of measured values, the switching device in it is o in the form of a coaxially mounted reed switch and a metal sleeve with a control winding, and the terminals of the reed switch are strengthened coaxially in dielectric washers installed in (L grooves of the sleeve and hermetically connected to it with the help of protrusions located on the end surfaces of the sleeve and clamping Hook. O O) (E 00 43 00

Description

The invention relates to a technique for measuring the dispersed composition of powders and can be used for the operational control of product quality during production. A device for analyzing the dispersed composition of powders or industrial aerosols is known, based on the preliminary electrical insulation of particles and the subsequent determination of the parameters of the dispersed composition by processing electrical signals obtained by measuring the charges of particles. The known device for measuring the dispersed composition of the powders contains a sprayer of the powder sample, an inlet nozzle, which includes a thin tube for fibrating the aerosol jet and a filter for cleaning the air and laminating the flow, charging chamber, precipitating condenser, made in the form of an U-shaped tube, with induction sensors, electrometric amplifier with switching device, blower, static charge neutralizer and high voltage power sources of the charging chamber and precipitation go condenser torus. The sampled sample of the powder being analyzed is sprayed and through a tube located in the entrance pat- ter, enters the charge chamber in the form of aerosol jets surrounded by a shell of clean air. In the charge chamber with a unipolar spatial charge, the particles are charged, and the same particles acquire equal charges. Next, the charged aerosol jet enters the precipitation condenser, which is a rectangular tube with electrodes on the walls, to which a constant high voltage is applied. In the precipitation condenser, the dispersed phase aerosol is spatially separated into the precipitation condenser at different distances from the point of entry into the precipitation capacitor. Induction sensors of total charges of fractions are installed in the center of the collecting electrode of the capacitor. After the deposition of the particles, the induction sensors with 8 2 using a switching device are alternately connected to the amplifier. After the signals are recorded, dust is removed and static charges are neutralized. However, in a known device, when the ambient humidity changes, moisture penetrates into the switching device, which causes a change in the insulation resistance causing charge leakage from the induction sensors. This limits the range of measured charges and the accuracy of the measurement device. The purpose of the invention is to improve the accuracy of measuring the dispersion composition and expanding the range of the measured value. This goal is achieved by the fact that in a device for analyzing the dispersed composition of powders, containing a powder nebulizer, a charging chamber, a discharge capacitor with induction sensors of the fraction, high-voltage sources for feeding the charging chamber and a precipitation condenser, an electrometric amplifier, a blower, a static neutralization unit the charges and the switching device, the latter is made in the form of a coaxially mounted reed switch and metallic: oh liner with a control winding, and the terminals are it is reinforced coaxially in dielectric washers installed in the grooves of the sleeve and hermetically connected to it with the help of protrusions located on the end surfaces of the sleeve and pressure nuts. Figure 1 shows a functional diagram of a device for analyzing the dispersion composition of powders; in fig. 2 switching device. A device for analyzing a dispersion of powder composition contains a powder dispenser 1, designed to transfer a sample of the analyzed powder into an aerosol state, an aerial chamber 2, intended for charging powder particles, an electrostatic filter 3 for air purification and airflow laminating, a precipitation condenser 4 with induction sensors, designed to separate powder particles into fractions, blower 5, switching devices 6, providing a consistent connection of induction sensors to electric A chemical amplifier 7, a neutralizer 8 for neutralizing static charges in a precipitation capacitor A and out-voltage sources 9 and O supply the charging chamber 2 and a precipitation condenser 4. The switching device of FIG. 2 / consists of a metal sleeve 11 with control windings to create electromagnetic field, reed switch 12, and the conclusions of the reed switch are strengthened coaxially in dielectric washers 13 installed in the notches of the sleeve 11 and creating a high insulation resistance of the switching device 4 PU Topical connection of dielectric washers with a sleeve using protrusions located on the end surfaces of sleeve II and clamping nuts 14, high-voltage electrode 15, collector electrode 16 and measuring plate. 17 of the precipitation condenser 4, the device operates as follows. : A sample of the powder to be analyzed is poured into nebulizer 1. The transducer converts the powder into an aerosol state. The aerosol jet flowing out of the atomizer, as in the known device, enters the charging chamber 2, consisting of two corona discharge sections and one rear section. In the charge chamber, the particles acquire high unipolar charges, proportional to the surface of the particle (the square of the diameter), and the jet of aerosol expands simultaneously. In addition, an additional air flow is pumped through the charge chamber by means of a blower 5. From the charge chamber, the particles enter the electrostatic filter 3, which is designed to fix the co-entrance of the charged particles into the precipitation capacitor 4. The settling capacitor is made in the form of a rectangular tube. The electric field in the capacitor. it is created by two electrodes: high voltage 1.5 and collector 16. In the center of the collector electrode, measuring plates 17 are installed, their number corresponds to the number of measured fractions. Under the action of electrostatic field forces, a three-dimensional separation of particles into fractions and the deposition of size groups in different parts of the collector electrode occur in the precipitation condenser. As a result, particles of certain fractions are deposited above each measuring plate. While deposition of charges on the measuring plates occurs, they are disconnected from the measuring circuit and isolated from the base of the device. At the end of the fractionation, the measuring plates through the switch device, growing from the reed switch 12 and the metal sleeve 11 with the control winding, are alternately connected to the input of the electrometric amplifier 7, the recorded signal being proportional to the total particle charge of the corresponding fraction and, consequently, to the number of particles. The absence of charge leakage from the measuring plates 17 is achieved by the hermetic pressing of the dielectric. washers 3 to the metal sleeve 1i using a tapered protrusion located at the point of contact of the washer with the sleeve, and the clamping nut 14. Creating a highly stable insulation resistance of the switching device can significantly improve the measurement accuracy and the range of measured charges, as well as apply switching devices in devices operating not only in laboratory but also under production conditions; Testing has shown the high reliability of the switching device.

Claims (1)

DEVICE FOR ANALYSIS OF DIS PERSONAL POWDER COMPOSITION, containing a powder atomizer, a charging chamber, a precipitation capacitor with induction charge sensors fraction, high-voltage sources to power the charging chamber and sedimentation capacitor, an electrometric amplifier, a blower, a unit for neutralizing static charges and a switching device, characterized in that, in order to increase the accuracy of measuring the dispersed composition and expanding the range of measured values, in it the switching device is made in the form of coaxially installed a reed switch and a metal sleeve with a control winding, and the conclusions of the reed switch are coaxially mounted in dielectric washers installed in the recesses of the sleeve and hermetically connected to it by means of protrusions located on the end surfaces of the sleeve and clamping nuts. 1 262348