CS268709B1 - Steel door furnace door frame - Google Patents

Abstract

The furnace door frame of the steel furnace according to the design ee is characterized by increased structural rigidity and effective cooling. The self-supporting spine of the door frame is formed by a thick-walled steel pipe, which together with the steel sidewalls and the inner flange forms a water-cooled door frame, into the beam of which a cooling water supply is connected by a pipe connection in the beam to a steel pipe, which is provided with common bottoms together with the ends of the arms, at which outlet holes are formed in the steel pipe, while a drain pipe is opened into the beam, serving to drain the cooling water and for its further recirculation.

Description

The invention solves the design of the frame of a water-cooled door of a tilting hearth steelmaking furnace with the aim of reducing the thermal stress of the frame in the exposed area by more efficient cooling of the hearth steelmaking aggregates with the opening openings closed upwards by sliding furnace doors, which are bricked up and cooled by water. The supporting structure of the door is formed by a semi-closed frame of a box profile, which is intensively cooled from the inside by a water flow. The back of the frame, directed into the furnace environment, is the most thermally stressed part of the furnace door and is made of a peripheral beam of a semicircular cross-section, to which flat steel side panels are welded, which are closed by a flat flange. The frame is made in a U-shape with arms pointing downwards and near the flat wheat closing the box profile, a supply pipe is placed, opening above the bottoms of both arms of the frame, into which cooling water is supplied under pressure, which from both sides the inlet pipe mouth in the arms penetrates the box profile of both arms upwards and is discharged into the recirculation circulation through the center of the box beam* This design has disadvantages consisting in the relative complexity of placing the inlet cooling pipe inside the box profile of the door frame and its fixation in this frame with spacer struts* Another and more serious disadvantage is the fact that the water emerging from the inlet cooling pipe mouth penetrates the cross-sectional area of the frame along the natural path of least hydraulic resistance and therefore flows to a lesser extent around the outermost circumference of the frame formed by the semicircular shaped profile of the peripheral beam, which is exposed to extreme thermal conditions of the furnace environment in the bend and transition of the arms to the upper beam, and therefore frequent cracking of the furnace door frame occurs in these places. The above problems are eliminated by the furnace door frame according to the invention, the essence of which lies in the fact that the self-supporting spine of the door frame is formed by a thick-walled steel pipe, which together with the steel sidewalls and the inner The flange forms a water-cooled door frame housing, into the beam of which a cooling water supply is connected by a pipe connection in the beam to a steel pipe, which, together with the ends of the vertical arms of the frame, is provided with common bottoms, in which outlet holes are formed in the steel pipe, while the cooling water waste is also discharged into the beam.

The door frame construction according to the invention stands out for its increased rigidity and its main advantage is effective cooling of the frame in the bends of the arms and adjacent parts of the upper beam exposed to the furnace environment.

The invention is schematically illustrated in the attached drawings, where Fig. 1 is a front view and a section through a symmetrical half of the door frame, Fig. 2 is a section A-A rotated by 90° and guided by the box profile of the frame arm from Fig. 3 is a section B-B of the upper box beam from Fig. 1.

The backbone of the door frame is formed by a thick-walled steel tube 1 bent into a U shape, to which flat steel side panels 2, 3 and inner flanges 4 are welded, which together form the housing 5 of the water-cooled frame, which in the upper part forms its beam 6 and passes into its vertical arms 7. A cooling water inlet 8 is connected to the beam 6, to which a pipe connection 9 is welded, which in the space of the beam 6 opens into a steel tube 1. Next to the cooling water inlet 8, a cooling water discharge pipe 12 is connected to the beam 6. The ends of the tube 1 extend to the bottom 10 of the arms 7 of the door frame, and at this bottom 10 they are provided with outlet openings 11.

Cooling water is supplied through a pipe to the inlet 8, passes through a pipe connection 9 in the beam 6 and enters through a steel pipe 1 into both arms 7 of the door frame. At the bottom 10 of the arms 7 of the door frame, the water exits through the outlet openings 11 of the steel pipe 1, then exits through the inner profile of the housing 5 in the arms 7 along the steel pipe 1 upwards into the beam 6, from where it is discharged through a discharge pipe 12 for cooling and further recirculation.

Claims (1)

The furnace door frame of a steel furnace is formed in a U-shaped closed box profile, consisting in its upper part of a beam to which two arms pointing downwards are attached and a cooling water inlet and outlet, whereby the cooling water is supplied to the ends of the arms by a supply pipe, around which it rises upwards through the cooling cross-section of the box profile of the door frame back into its beam, characterised in that the self-supporting spine of the door frame is formed by an all-walled steel pipe (1), which together with the steel side walls (2, 3) and the inner panel (4) forms a water-cooled cavity (5) of the door frame, into the beam (6) of which a cooling water inlet (8) is opened, connected by a pipe connection (9) in the beam (6) to the steel pipe (1), which is provided with common bottoms (10) at the top and ends of the arms (7), in which the steel pipe (1) outlet openings (11) are formed, while the cooling water outlet (12) also opens into the beam (6)