SU1751602A1 - Glass-blowing burner - Google Patents

Abstract

The invention relates to burners for the heat treatment of materials, in particular to burners for glass-blowing operations, and makes it possible to increase the temperature and stability of the flame. This is achieved by the fact that the burner additionally contains two annular electrodes, successively installed behind the nozzle with the possibility of longitudinal movement along its axis, and the heating element is made in the form of an electrical coil placed in the nozzle, the cross section of which is made similar to the output nozzle cross section. 2 Il.

Description

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The invention relates to burners for the heat treatment of materials, in particular to burners for glass-blowing operations.

Known glass burners, comprising a housing with an outlet nozzle and nozzles for supplying fuel and oxidant.

The disadvantages of the known glass burners are the bottom: and the temperature and instability of the torch, due to the supply of a cold mixture of fuel and oxidant to the combustion, which lowers the temperature at the beginning of the torch and does not allow a high maximum of temperatures to occur, leading to unstable combustion, leakage and flame separation.

The closest in technical essence to the present invention is a glass-blowing burner comprising a body with

fuel and oxidizer nozzles and an outlet nozzle, behind which the annular nozzle with a heating element is placed with an edge clearance and installed with the possibility of longitudinal movement. A multi-nozzle gas burner integrated with the nozzle is used as the heating element, and the injected air is heated and the mixture is heated as an heating element fuel with an oxidizer, resulting in a slight increase in temperature and stability of the torch flame.

However, the achieved increase in temperature and torch stability is not enough, as manifested, for example, by using a known burner for the manufacture of products from heat-resistant glass. In the famous glass burner due to isx4

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the use of this design of the annular nozzle with the heating element, ballasting of the injected air and the fuel mixture with the oxidizer coming from the burner exit nozzle, the combustion products of the combustible gas coming from the annular nozzle occurs, which leads to an increase in the torch volume, reducing its stability and preventing further temperature increase .

The purpose of the invention is to increase the temperature and stability of the flame of a glass-blowing burner.

The goal is achieved by the fact that a glass-blowing burner, comprising a housing with fuel and oxidant nozzles and an outlet nozzle, behind the cut of which with a face gap, is placed a ring and a nozzle with a heating element installed with the possibility of longitudinal movement, contains two annular electrodes sequentially installed behind the nozzle with the possibility of longitudinal movement along its axis, and the heating element is designed as an electric spiral placed in the nozzle, the cross-sectional profile of which is made nalogichnym profile cross-section of the outlet nozzle.

Figure 1 shows a glass burner; in fig. 2 shows section A-A in FIG. one.

The proposed glass-blowing burner includes a housing 1 with fuel supply nozzles 2 and an oxidizer 3 and an output nozzle 4, behind which the annular nozzle 6 with a heating element is placed with an end gap 5, an electrical coil 7 connected to one adjustable output 8 of the electrical current source 9, and two ring electrodes 10 and 11, sequentially installed behind the ring nozzle b and connected to the second regulated output 12 of the source 9 of the electric current. The annular nozzle 6 with an electric spiral 7 placed therein has a profile in cross section similar to that of the exit nozzle 4 (Fig. 2). Ring nozzle 6 and two ring electrodes 10 and 11 are installed with the possibility of longitudinal movement along its axis (Fig. 1).

Glass burner works as follows.

Inside the housing 1 glass-blowing burner through the nozzles 2 and 3 serves the fuel and the oxidizer. Next, the mixture of fuel and oxidant through the outlet nozzle 4 enters the annular nozzle 6, where it ignites from the electric coil 7. Additional, necessary for complete combustion of the combustible

of the mixture, air is injected into the annular nozzle 6 through the end gap 5 and is heated by an electric coil 7. The resulting mixture burns

fuel with an oxidizer and additional air a torch passes inside the annular electrodes 10 and 1 f, between which a voltage is applied from the regulated output 12 of the source of electrical current 9. By

0 an electrical circuit formed by an electric current source 9 with an adjustable output 12, annular electrodes 10 and 11 and a torch, an electric current passes, the magnitude of which is regulated by the magnitude of the applied voltage and the relative position of the annular electrodes 10 and 11, while an additional the amount of heat and its temperature rises. The predetermined cross-sectional shape of the plume is provided by the cross-sectional shape of the annular nozzle 6 and the outlet nozzle 4.

Use in the glass burner annular nozzle with a heating element,

5, made in the form of an electric spiral, eliminates the ballasting of a mixture of fuel with an oxidizing agent and additional air by the products of combustion of combustible gas, increasing stability

0 (no fluctuations in size, position in space and temperature) and temperature of the torch due to electric heating of the mixture of fuel with oxidizer and additional air.

5 The electric helix also serves as a continuously operating igniter of the combustible mixture, which contributes to the stabilization of the flame. A further increase in temperature and torch stability is produced by passing an electric current between annular electrodes placed into it.

Optimal torch parameters — its shape, size, temperature, and stability — are achieved by the foreseen possibility of longitudinal movement of the annular nozzle and annular electrodes along the axis of the glass-blowing burner, as well as the configuration and similarity of the cross sections of the annular nozzle and output nozzle.

The advantages of the proposed glass-blowing burner — the stability of the torch and its high temperature — allow it to be used when processing heat-resistant glasses, using instead of high-calorific fuels, for example, propane-butane mixture, less high-calorie, for example, generator or natural gas, and as an oxidizer instead of technical oxygen-air. The uncriticality of the proposed burner to the calorific value of the fuel used, the high temperature and the stability of the torch make it possible to increase labor productivity and ensure rhythm in the production of glass products.

Claims (1)

A glass burner comprising a housing with fuel and oxidant nozzles and an outlet nozzle, behind the cut of which with an end gap is placed with the possibility of longitudinal movement. / Fy 0 an annular nozzle with a heating element, characterized in that, in order to increase the temperature and stability of the torch, the burner additionally contains two annular electrodes, successively installed behind the nozzle with the possibility of moving along its axis, and the heating element is made in the form of an electric spiral placed in the nozzle , the cross-sectional profile of which is made similar to the cross-sectional profile of the exit nozzle. //