CS276684B6 - Landing door of industrial heating furnace - Google Patents

Abstract

The water-cooled door leaf has a lower edge of the bevel at an angle (cv) corresponding to the inclination of the furnace outlet chute (10) and vertical bumpers (7) are attached to the inner shell (1) of the door leaf, protecting the ceramic fiber insulation (8) from mechanical damage. The lower edge of the outer shell (2) of the door leaf is provided with semicircular recesses (11) that cover the sliding ribs (12) of the furnace outlet chute (10).

Description

The invention relates to the construction of outlet doors with which the outlet sides of industrial heating furnaces are equipped, in particular impact furnaces with upper and lower heating in metallurgical rolling mills.

Industrial furnaces, in which steel billets are heated before their subsequent hot rolling, are equipped with zones with upper and lower heating. The heated billets lie perpendicular to the longitudinal axis of the furnace on sliders of water-cooled and insulated runners, along which they are extruded from the planting side to the outlet side of the furnace. At the end of the heating, the billet reaches the sloping sliding surface, which consists of cast steel plates with sliding ribs. The outlet side of the furnace is closed by an outlet door pivotally arranged in the upper hinge of the door beam. The originally bricked doors were replaced by water-cooled ones, which are formed by an inner and outer steel casing, which are watertightly connected and reinforced by circumferential steel friezes, and cooling water is supplied to the space between the two casings of the door leaf. Due to the high temperatures of the oven space, the cooling is very intensive and dimensioned so that there is no thermal warping or opal of the door. However, this efficient cooling results in massive heat dissipation of the kiln by cooling water, and thermal protection of the inner surface of the exit door by the lining is not possible because the impacts of extruded billets accelerated on the slide shake the door strongly and the lining is quickly destroyed by direct shocks and dynamic shocks.

These drawbacks are eliminated by the discharge door of an industrial heating furnace, the double-skinned, water-cooled sash of which is reinforced by vertical ribs, the upper handles of which hing the door hinged in the upper hinge of the heating furnace lintel, the lower edge of which rests on in that vertical bumpers are attached to the inner casing of the door leaf and the space between them is filled with fibrous ceramic insulation, the lower edge of the inner casing being shorter than the outer casing of the door leaf by a height shorter than the right triangle, where the angle opposite to this height, is the angle of inclination of the kiln run-out. According to the invention, semicircular recesses are formed in the lower edge of the outer casing of the door leaf, the lower flat frieze connecting the two casings being attached to the outer casing above its semicircular recesses and attached to the inner casing with an inclination

The access door according to the invention has an internal insulation perfectly protected against the impact effects of falling billets, and the permanent insulating effect of the door substantially reduces the heat dissipation from the furnace space. The bevelled arrangement of the lower part of the door leaf creates a knife closure at the kiln door, which perfectly copies the horizontal profile of the run-out chute and thus reduces the heat losses of the kiln by slit whipping.

The essence of the invention is elucidated in the following description with reference to the accompanying drawings, in which Fig. 1 represents a vertical section of the exit door and Fig. 2 shows the lower part of the exit door in view P from Fig. 1.

The door leaf of the exit door forms the outer shell 2 and the inner shell 2 ', which are closed on the sides and from above by flat friezes 2 »reinforced in the middle by a reinforcement £ and in the lower part by an inclined lower frieze ί>. In the enclosed space between the two jackets 2 »2, cooling water 2 flows. 2 ^and anchor washers. A significantly modified surface of the inner shell 2 facing the interior of the furnace, provided with a reflective layer with a significantly reduced coefficient of specific heat absorption, which suitably complements the insulating properties of mineral fiber mats and is sufficient to effectively reduce heat loss, significantly reduces the thermal permeability of the door leaf by the transfer of kiln heat to the cooling water. The height of the inner shell 2 is shortened by a height oproti compared to the outer shell 2, so that the door leaf with its lower edge copies the inclination of the run-out chute 10 of the furnace. The lower edge of the outer shell 2 is provided with semicircular recesses 11 11 which, in the closed position of the exit door, cover the contour of the sliding ribs 12 of the cast steel plates 13 of the furnace chute.

Claims (2)

PATENT CLAIMS 1. An outlet door of an industrial heating furnace, the double-skinned, water-cooled wing of which is provided with vertical outer ribs, the upper handles of which are hinged to the upper hinge of the heating furnace lintel, the door leaf resting with its lower edge on a sloping furnace chute, characterized by that vertical bumpers (7) are attached to the inner casing (2) of the door leaf and the space between them is filled with fibrous ceramic insulation (8), the lower edge of the inner casing (2) being shorter in height than the outer casing (1) of the door leaf (H), which is the shorter perpendicular in a right triangle, where the angle (<X /) opposite the perpendicular of height (H) is the angle of inclination of the kiln run-out (10). Swing door according to claim 1, characterized in that semicircular recesses (11) are formed in the lower edge of the outer casing (1) of the door leaf, the lower flat frieze (5) connecting the two casings (1, 2) being attached to the outer one. of the casing (1) above its semicircular recesses (11) and to the inner casing (2) it is fixed with an inclination at least equal to the angle () of inclination of the furnace run-out chute (10).