DE903855C - Foundry dome furnace - Google Patents

Description

(WiGBl. P. 175)

ISSUED FEBRUARY 11, 1954

R 6296 VIa / 31a

Foundry dome furnace

When melting the dome furnace, the lining of the furnace also melts, which then attaches to the wall trickles along and reaches the height of the wind forms, where it, cooled by the wind, solidifies partial clogging of the wind forms.

In the previously known dome furnaces, the tuyeres are mostly in the plane of the wind box and are all in operation at the same time. It follows that the wind forms constantly partially are clogged: in the course of a melt, the amount of wind carried changes, which means Disturbances in the melt arise, namely Uliguniformities of the molten metal and the hourly melt quantity as well as changes the temperature.

Since the wind forms are all in the plane of the wind box, the wind pressure is in the different ones Wind forms different, namely the pressure is higher in the vicinity of the .Winddruckleitung than with the opposite wind forms. So the amount of wind carried by each shape is different, so that some zones form within the dome furnace in which the melting takes place under unfavorable conditions.

There are already known dome furnaces with two rows of alternately operated tuyeres are provided. In this known embodiment

form, the out of order forms are brought to a high temperature so that the these forming deposits melt and are thus removed. The alternating toggling the wind shape «! but is done by hand and is often left to the discretion of the smelter, so that a uniformity of the melt is not ensured. In addition, inequality remains of the pressure in the wind form «! exist.

Dome furnaces are also known in which the wind box is arranged higher than the shapes and is connected to them by vertical lines. In these dome furnaces is the Air distribution is better, but the pressure loss in the connecting lines is proportionate high.

The invention relates to a dome furnace with completely automatic cleaning of the wind forms, the same pressure in the wind forms low pressure loss, reduced wear of the lining with heating of the Wind.

According to the invention, the dome furnace has two rows of separate wind forms, which alternate be put into operation automatically. This way the cleaning of the wind forms takes place in takes place at the same time intervals and completely automatically. The wind becomes steady as a result blown in so that the quality of the metal produced also remains constant.

The setting of the blowing time for each row of tuyeres can be carried out by means of the fusible link will; the melting staff is thus switched off, and his fatigue is thereby reduced.

The tuyeres are preferably converging and on the circumference of the dome furnace evenly distributed. A more effective self-cleaning is achieved through this arrangement; at the same time a scattering of the wind beam is avoided, so that from the wind pouring one tuyere row the other opposite row during their cleaning cannot cool down.

According to the invention, the wind box can be arranged at a different height than the wind forms and with these through one around the dome furnace horizontal subdivided sheathing are connected. This creates an even wind pressure Achieved in all forms of wind and thanks to the large dimensions of the connecting lines the pressure drop is significantly reduced. The through the sheathing to the level of the The wind carried by the melting zone heats up while simultaneously cooling this zone and its Lining, which significantly reduces wear and tear.

The drawing illustrates an embodiment a dome furnace designed according to the invention, namely

Fig. Ι half in view and half in Longitudinal section,

Fig. 2 is a cross section along the line H-II of Fig. Ι and

Fig. 3 is a cross section along the line IH-III of Fig. 1;

Fig. 4 shows the wind control flap in a front view.

The dome furnace 1 provided with a refractory lining ¹ 2 has a wind box 3 which is connected to the wind duct 4 and divided by a partition 5. In front of the mouth of the wind conduit 4 there is a sliding flap 6 provided with an opening 6 ″ , which enables the alternating connection of the conduit 4 to one of the two halves of the wind box 3. The flap 6 is connected to a piston 7, which is doubled in one A valve 9 driven, for example, by an adjustable clockwork mechanism 10, is used to introduce compressed air to one or the other end of the cylinder 8.

Below the wind box 3, a jacket 11 is welded around the dome furnace, which is divided into several channels 13 by radial partition walls 12. Every second channel stands with the upper half of the wind box through openings 14 of the wall 5 in connection while the remaining channels through the openings 15 of the bottom of the wind box with its lower part are connected. The channels 13 are evenly distributed around the circumference of the dome furnace converging wind forms 16 in connection. Openings 17 are provided opposite the wind forms.

By the clockwork 10 are alternately those with the upper part of the wind box and those with the lower part of the wind box connected wind forms put into operation. the out of order tuyeres are brought to high temperature and cleaned while the wind flowing through the casing 11 is heated and a uniform pressure in maintains all wind forms in operation.

With the dome furnace according to the invention, a better end product is achieved than before thanks to the constant melting temperature. The melter does not need to pay more attention to the cleaning of the tuyeres, so that the n ₀ imposed on him monitoring task easier. The wind is warmed up and thus the life of the lining is increased, especially in the area where it is exposed to the greatest heat.

Claims (5)

Patent claims: 1. Dome furnace, characterized by two rows of separate turrets that alternate be put into operation automatically. 2. Dome furnace according to claim 1, characterized in that that for alternating operation of the two rows of wind forms one connected in one with the wind forms Line (4) arranged displaceable flap (6) is provided, which by a clockwork (10) is controlled. 3. Dome furnace according to claim 2, characterized in that the clockwork (10) is adjustable is. 4. Dome furnace according to claim 1 to 3, characterized characterized in that the tuyeres (16) converge and on the circumference of the dome furnace are arranged evenly distributed. 5. dome furnace according to claim 1 to 4, characterized characterized in that the wind box (3) at a different height than the wind forms is arranged and with these by a subdivided jacket lying around the dome furnace (11) is connected. 1 sheet of drawings & 5740 2.