SU1174756A1 - Method of weighing powder for depositing by spraying - Google Patents

Abstract

METHOD FOR DOSING POWDER FOR SPRAYING by acting on vibration of a powder and its subsequent pulsed ejection, about the same and with the fact that, with a higher dosing circuit, the frequency of bibration is set in the range from 20 to 200 Hz, d the frequency of pulses . ejection - no more than 10 Hz.

Description

The invention relates to instrumentation and can be used in the energy and other industries for the dosing of powder for spraying.

There is a known method of dosing, which consists in creating a vibro-boiling layer of bulk material and dosing due to the pressure difference between the container and the object -fl dosage fll.

The disadvantage of this method is the low accuracy of dosing of small doses.

The closest in technical essence and the achieved effect is the method of dosing by subjecting the powder to vibration and its subsequent pulsed ejection fZ.

The disadvantage of this method is the low accuracy of dosing, due to the unevenness of the fluidized bed at the point of dose selection.

The purpose of the invention is to improve the accuracy of dosing.

This goal is achieved by the fact that according to the method of powder dosing for spraying the path of exposure of the powder to vibration and its subsequent pulse ejection, the frequency of vibration is set in the range from 20 to 200 Hz, and the frequency of ejection pulses is not more than 10 Hz.

FIG. 1 shows a device for implementing the method; in fig. 2 the dependence of the dosing error on the frequency of vibration; in fig. 3 shows the dependence of the metering error on the frequency of the ejection pulses.

The device (FIG. 1) consists of a cylindrical shaped housing 1 with a conical lower part, which is mounted on the chassis of an electromagnetic vibrator. Inside the housing 1 a dosing cup 2 is placed, which is rigidly connected to the electromagnetic vibrator through the sleeve 3 and is separated from it by a rubber partition 4. In the dosing cup 2 there is a gasket 5 and a diaphragm 6, adjusting the dosage of the powder discretely. Above the dispensing cup 2, the pressure nozzle 7 with a choke connection for connecting the carrier gas and the suction nozzle 8 of the ejector are mounted and fixed in the accumulator 1. They are located strictly

diametrically and have the possibility of independent movement along the horizontal axis, which is necessary when setting up the device. The suction nozzle 8 of the ejector is connected by a rigid split sleeve .9 to the pipe 10. The straight metal pipe 10 is connected to the receiver by means of a plug connection. Through the cover 11, flexible hoses 12 are fed through the metering device with powder from the hopper 13. The electromagnetic vibrator operates from a broadband power amplifier, at the input of which., Control signals from a low-frequency sinusoidal signal generator and a square pulse generator are supplied.

The device works as follows. .

The powder from the hopper 13, which is above the housing 1, flows by gravity through the connecting tube 12 through the bolt 11 and the diaphragm 6 into the dosing cup 2. The cup 2 is rigidly connected through the coupling 3 with an electromagnetic vibrator, under the influence of signals at a frequency of 20 up to 200 Hz, the powder in the cup 2 forms a uniform liquefied layer. Its thickness is set during assembly by varying the thickness of the gasket 5. An ejection pulse with a repetition rate of not more than 10 Hz is applied from another generator. As a result, a powder is ejected in a vertical plane from the cup 2 through the opening in the diaphragm 6 to the suction area of the ejector, where the conveyor gas is continuously purged. The ejected powder is sucked into the nozzle 8 by the ejector, compacted and accelerated in it and along the straight pipeline 10 at high speed — transported to the receiver. The rubber partition 4 prevents the electromagnetic vibrator from settling of the powder in the lower part of the device during its long-term operation.

The accuracy of powder dosing (Figures 2 and 3) significantly depends on the choice of the vibration frequency range and the frequency of the ejection pulses.

The proposed method, by selecting the frequency ranges, allows one to significantly improve the dosing accuracy and, therefore, the quality of the deposited TIOKDbrrtr ;.

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Claims (1)

METHOD FOR DOSING THE POWDER FOR SPRAYING by exposing the powder to vibration and subsequent pulsed ejection, with the exception that, in order to increase the accuracy of dosing, the vibration frequency is set in the range from 20 to 200 Hz, and pulse frequency. ejection - not more than 10 Hz. > 1 1174756 2