RU27087U1 - INSTALLATION FOR CUPELING OF LEAD ALLOYS IN TEST ANALYSIS - Google Patents

Abstract

Installation for cupellation of lead alloys in assay analysis, including an electric furnace containing holes in the rear wall, characterized in that it is equipped with a movable ventilation device, and the doors of the electric furnace have openings equipped with plugs.

Description

INSTALLATION FOR CUPELING OF LEAD ALLOYS IN

PROBLEM ANALYSIS.

The utility model relates to analytical chemistry and can be used in the determination of noble metals in natural and industrial materials.

Known furnace for cupellation, operating on coke, liquid fuel and gas 1, C.201-203. The disadvantages of these furnaces are: lack of regulation of temperature and gas-dynamic regimes of the cupellation process, low rate of cupellation.

Known electric furnaces 1, S.203-207, which provides for automatic control of the temperature regime of the cupellation process. The disadvantages of these furnaces are the lack of regulation of the gas-dynamic regime of the cupellation process and the low rate of cupellation. In addition, during cupellation, in order to increase the air supply to the electric furnace, the oven doors are opened, while the protective microswitch is turned off, which reduces the safety of work.

Closest to the proposed device, an electric furnace for schering lead alloys 2, in which the temperature and gas-dynamic regimes are regulated. However, this furnace is not effective when used in the cupellation process, since air access to the furnace is limited and this does not reduce the duration of the cupellation process.

The purpose of the invention is to reduce the duration of the cupellation process and improve working conditions.

This goal is achieved in that the installation for cupellation of lead alloys in assay analysis, including an electric furnace containing holes in the rear wall, is equipped with a movable ventilation device, and the doors of the electric furnace have holes equipped with plugs.

from 22 to 11/02

the installation contains a ventilation device;

oven doors have openings;

air is supplied through openings in the oven doors;

air supply is controlled by the position of the plugs in the oven doors, as well as by changing the position of the gate or fan speed.

In figures 1 and 2 shows the design of the installation. In FIG. 1 shows a device for cupellation, a front view and a cross section; in FIG. 2- same, top view and longitudinal section. The furnace 1, in which the droplets 2 are installed, is provided with holes in the rear wall of the furnace 3. Doors

The 4 furnaces are also equipped with openings 5, which are closed with plugs at the initial stage of cupellation. 6. The ventilation device 7 provides an intensive air supply to the furnace through the openings 5 and removes lead oxide through the openings 3. The volume of transported air is additionally regulated using a gate 8 or by changing the number of revolutions of the ventilation fan devices 7.

Installation works as follows. During the heating of drops

5 and the melting of lead alloys, the ventilation device 7 is turned off, the holes 5 in the doors are plugged with plugs 6, the holes in the rear wall of the furnace 3 are open. After exposure of lead 1, C. 151 open the holes in the doors of the furnace 5 and turn on the ventilation device 7. At the same time, the oxidation of lead is accelerated and the temperature of the furnace decreases, which helps to reduce the loss of precious metals. The air flow is additionally regulated using a gate 8 or by changing the fan speed of the ventilation device 7.

Using the proposed installation provides, in comparison with currently used furnaces for cupellation, the following advantages:

the duration of the cupellation process is reduced by at least 30%;

electrical safety requirements are observed, since the cuping process takes place with the oven doors closed and there is no need to turn off the protective microswitch, as is done in the practice of assay analysis;

the lead content in the air of the working area is reduced due to the fact that lead oxide is removed through openings in the rear wall of the furnace.

Claims (1)

Installation for cupellation of lead alloys in assay analysis, including an electric furnace containing holes in the rear wall, characterized in that it is equipped with a movable ventilation device, and the doors of the electric furnace have openings equipped with plugs.