SU1416505A1 - Coke oven door - Google Patents

Abstract

This invention relates to coke production and concerns coke oven doors. The aim of the invention is to increase the gas tightness and reliability of the door by eliminating the thermal deformation of the sealing element. The door of the coke oven consists of a body with a refractory lining, shut-off valves, a sealing element, lateral, upper} L lower brackets, spring plungers of the pressure and adjustment rows. The sealing element consists of two horizontal and two vertical posts. The vertical posts in their middle part have compensating units, which are connectors vertically CTOI IKH, connected by a metal plate with a profile of the sealing element and with slots, and consist of pins, nuts and bodds, and clamping elements made in the form of spring plungers. The resulting critical thermal overvoltages do not cause bending deformations of the uprights due to the presence of a gap between their ends in the compensation nodes. 3 hp f-ly, 5 ill. (C (C) 14 IN has been established on JV

Description

This invention relates to the coking industry, in particular to coke oven doors.

The aim of the invention is to increase the gas tightness and reliability of the door by eliminating the thermal deformation of the sealing element.

Fig, 1 shows the door of the coke oven; in fig. 2 is a section A-A in FIG. I; in fig. 3 is a view B in FIG. one; in fig. 4 is a view of B in FIG. 3; in fig. 5 is a cross-section of the FIG. 3

The coke oven door consists of a body 1 with a refractory lining 2, a shutoff valve 3, a sealing element 4 consisting of vertical 5 and horizontal 6 racks, side brackets 7 with spring plungers of the pressure 8 and adjustment 9 rows and the top 10 and bottom 11 brackets. The compensation unit 12 is a connector in a vertical rack 5 of the sealing element 4 And consists of a metal plate 13 (profile of the sealing element) with slots 14, pins 15, nuts 16, bolts 17 and slots 18.

The door is assembled and installed as follows.

An asbestos gasket is laid on the stand on the door body, a sealing element 4 is installed, the upper 10, lower 11 and side 7 brackets are applied to it and fastened to the door body 1. The uprights 5 are joined by a metal plate 13 through the slits 14 and 18 with pins 15, nuts 16 and bolts 17. With the help of spring plungers of pressure row 8, the sealing element 4 is pulled around the case of door 1, and spring plungers of adjustment row 9 on coma oven range (by templates).

When charging the furnace with the coal charge and its coking, the temperature of the door and the sealing element 4

under; it is up to the specified limits. The resulting critical thermal overvoltages do not cause bending deformations of the uprights due to the presence of a gap between their ends.

Used compensation nodes. At the same time, the vertical supports 5 with the pins 15 fixed on them, which are included in the inclined slots 14 of the metal plate 13, approach each other, making a prize with the latter and the ends of the sealing element 4 to the furnace frame. The angle of inclination of the slits 14 to the vertical axis (5 degrees) allows for a tight pressing of the metal plate

13 and the ends of the uprights 5 packs (The locking element 4 to the furnace frame.

The gas tightness of the upper part of the sealing element 4 while moving the ends of the vertical posts 5 is accomplished by the movement of the bolts 17 in slots x 18 with sufficient pressing of the plate 13 to the vertical posts 5..

As a result of this work of the compensation unit 12, the coke oven chamber is self-compacted during the entire period of coking - the contour of the sealing element 4 monitors the furnace frame mirror. In this case, the arcing causes the deformation of the sealing element 4 when it is heated to critical temperatures.

The device will allow to increase the gas density and reliability of the door, to exclude thermal deformations of the sealing element. The increase in gas density leads to an increase in by-products: coke oven gas by 1.5%,

resin by 2.5% and benzene by 3.8%.

The assembled door is mounted on a coke oven and secured thereto by means of shut-off valves 3. At the same time, the sealing element 4 is extended to the mirror of the furnace frame along the entire perimeter. If there are places where the sealing element 4 is not tightly pressed against the mirror of the furnace frame, the sealing element is finally crimped by 4 spring-loaded plungers of the adjusting row 9.

The device works as follows.

Claims (4)

Formula one . The door of the coke oven, including the body, the refractory lining, the shut-off fittings, the sealing element consisting of vertical and horizontal racks, the fixing device consisting of brackets, fixing bolts, clamping elements and adjustment elements with spring plungers, located on vertical points, characterized in that, in order to increase the gas-plot 3I4I6 reliability and reliability of the door by eliminating thermal deformation of the sealing element, the sealing element is equipped with compensating units made in the form of connectors in vertical posts equipped with metal plates that overlap them, while at the ends of the metal plates inclined slots are made and the vertical stands are equipped with pins with threaded grooves, with the studs fitted with nuts and the clamping elements in the form of spring plungers. f f y t + ± .4i.-J - f-L i. + + ± h ± H. | JLRiH ± jJ /; 05 four 2. A door according to claim 1, wherein the metal plates are made with the profile of the sealing element. 3. A door according to claim 1, characterized in that the compensating assemblies are located in a part of the uprights of the sealing element that is mid-height. . 4. The door on PP. 1-3, characterized in that the ratio of the free stroke of the vertical column in the compensation unit to its length is 5.210. one / ten . | jLRiH /; cpu .i Via in dzsh,  NkЛvx / xxx Гч /// j // v // / J 72 FIG. 17 dzsh, LC RH /// j // v // FIG. five