DE643013C - Process to bring convection currents to a standstill in the furnace chamber of electrically heated ovens, in particular tunnel ovens for the uninterrupted bright annealing of iron or steel sheets - Google Patents

Description

Method of electric heating in the furnace: bg-heated furnaces, in particular Tunnel ovens for uninterrupted blank grinding of iron or steel sheets, convection flow standstill to be brought In the case of long tunnel ovens with indirect or electrical heating, in particular those for the uninterrupted bright annealing of iron or steel sheets, the phenomenon can be observed that there are convection currents in the furnace tunnel form, so that, for example, a cycle between the zones of higher temperature and the zones of lower temperature takes place. These currents are natural particularly noticeable in tunnel ovens with distinct cooling zones. These currents are capable of influencing the temperature distribution in the furnace in an undesirable way: When opening the loading doors at the ends of the furnace, the unwanted Currents still intensify a lot. When the furnace tunnel is filled with protective gas, so the outside air can mix with the protective gas and make it unusable.

The invention aims to avoid the above disadvantages zti. This is because of this achieves that one gas of the composition of the furnace atmosphere in the longitudinal direction of the furnace chamber in such a way that it eliminates the convection currents occurring there counteracts. Particularly effective around the convection currents that arise in the furnace chamber To slow down, one or more are expediently on the outside of the tunnel kiln Arranged blower, which remove gases from the furnace chamber and this in the circuit feed again. In this way the thermal flow is artificially delayed, and by regulating the incoming gas accordingly, it can be achieved that in the furnace cross-sections in question, the convection flow of the gases practically stops.

In the drawings, a tunnel furnace is shown on which the Implementation of the method according to the invention will be explained for example target.

Fig. I shows a longitudinal section, Fig. 2 shows a cross section through the Tunnel furnace.

i is the masonry of the tunnel kiln, 2 the entry and 3 the exit for the item to be treated. The top of the tunnel kiln is at the entry or exit end one fan each .l, 5 arranged, which with the heated or unheated zone 6, 7 through gas lines 8, 9 in the manner shown in particular in FIG. 2 in this way are connected that gas circuits are formed, which the existing in the furnace chamber Counteract convection currents. In the corresponding zones of the furnace room are transverse at the points of gas inflow, provided with outflow nozzles Tubes io, i t arranged so that the gas flowing into the furnace chamber to a certain extent forms a gas curtain. The convection currents run, as in Fig. I indicated by the solid arrows in the adjacent to the entry end heated zone in the opposite direction as in that adjacent to the outlet end unheated zone.

In the case of ovens that work with a protective gas atmosphere, one becomes the Equipment for gas supply and discharge as close as possible to the inlet and outlet openings provide; this prevents outside air from entering and exiting the furnace of the protective gas in the outside atmosphere is practically prevented. By arranging a larger number of such devices distributed over the length of the furnace can be used Improve the effect of the method described even further.

Claims (1)

CLAIM OF THE PATENT: Process to produce, in the furnace chamber of electrically heated furnaces, in particular tunnel furnaces for the uninterrupted bright annealing of iron or steel sheets, _ Bring convection currents to a standstill, characterized in that; that he Gas of the composition of the furnace atmosphere in the longitudinal direction of the furnace space initiates opposite to the direction of the convection currents occurring there.