RU37195U1 - DEVICE FOR REPLACEMENT OF FURNACE LINING - Google Patents

Abstract

1. A device for replacing the lining on the arch of the furnace, containing two fixed supports, fixed on the base and located on the same line, at a distance less than the length of the section of the arch, characterized in that one of the supports of the device is equipped with a node for fixing and turning the arch on it and is additionally equipped a third support located on the opposite side with respect to the support with the rotation unit and installed so that the support with the rotation unit is between them, and the height of the supports is different with respect to the main plane 2. The device according to claim 1, characterized in that the node for fixing the arch on the middle support is made in the form of a removable axis and holes made in the upper part of the support. The device according to claim 1, characterized in that a groove is made in the middle support, the length of which is at most equal to the length of the protrusions of the arch. The device according to claim 1, characterized in that the height of the middle support is made greater than the height of the third support and less than the height of the fixed support located on the other side with respect to the third support.

Description

Device for replacing the lining on the arch of the furnace.

The proposed object relates to the field of metallurgy, in particular to devices for replacing refractory lining in a set of industrial furnaces intended for melting metal in them, mainly rotary furnaces for melting copper and its alloys, with a removable set.

Known furnaces for smelting metals, in which the arch is made suspended and mounted on the side walls. The entire inner surface of the vault consists of trusses, on which refractory bricks are hung close to each other and fixed on the sides. Each brick is equipped with a figured cavity in which part of the vault truss is located. In this design, the lining is replaced directly in the cavity of the furnace when it is completely stopped, with each brick individually installed directly from the bottom up, followed by its movement along the truss to the stop with the previous brick (see the book by A.I. Vashchenko, M.A. Glinkov et al. Metallurgical furnaces., M., Metallurgy, 1964, pp. 197-208, Fig. 101).

The disadvantage of these furnaces is that there are no devices to replace the lining. This requires a complete stop of the furnace, its cooling, the installation of temporary scaffolding and the supply of a lining for them. This makes the process of replacing a burned lining long in time and time-consuming during its implementation. This reduces labor productivity, worsens working conditions of workers and requires a lot of time to replace the lining of melting furnaces, large sizes.

Also known are furnaces for melting metal, in which the arch is made removable from several sections from a metal base, on the inside

the surfaces of which, over the entire area, are fixed high-temperature masonry in the form of refractory bricks. For these arches there is a device for replacing the lining, which has two supports of the same height, mounted on a rigid base outside the furnace. The supports are located on the same axis, and the distance between them is less than the length of the sections of the arch of the furnace. (See, for example, utility model certificate, Russian Federation, No. 11789 according to class B 21 C 47/04 for 1998)

The disadvantage of this device is that the lining is replaced outside the furnace, but still the refractory masonry is installed from the bottom up. And the device for installing and securing the arch sections does not have the ability to rotate the sections when replacing the lining. It also increases the lining replacement time and makes this operation laborious and inconvenient during operation.

The technical task of the proposed device is to reduce the time to replace the lining, reduce the downtime of the furnace and replace the lining of the roof of the furnace using mechanization and lifting mechanisms.

This task is achieved by the fact that in the device for replacing the lining, containing two fixed supports fixed on the base, located on the same line at a distance between them less than the length of the arch section, one of the supports is equipped with a fixing unit for the arch section with the possibility of rotation of the latter around it and additionally equipped with a third support located on the opposite side with respect to the support with the rotation unit installed so that the support with the rotation unit is between them and the height of the supports is made p zlichnoy relative to the base plane, the rotation assembly is configured in the form of through holes made in the upper part of the middle axis of the support and the removable inserted into the through hole.,

- Figure 1 - shows a General view of the proposed device in the transport positions of the vault section.

Figure 2 - position of the section of the arch in working condition

In FIG. 2 a section along AA of FIG. 1.

As shown in the graphic part, the proposed device contains fixed supports 1 and 2 located on the same axis and rigidly fixed to the base 3, the surface 4 of which is smooth. On the other side of the support 2 coaxially mounted additional support 5, with a flat working surface. In the upper part of the support 2, a through hole 6 is made under the removable axis 7, and its middle part is made

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a longitudinal groove SjOcb 7 behind (secured from displacement by, for example, a wedge 9. The arch section has a metal frame 10 on the inside of which the refractory masonry And is fixed, in the form of many bricks of refractory material, and on the outside is equipped with L-shaped protrusions 12 and 13 (height which are shorter than the length of the groove 8 of the support 2) with holes 14 and 15. From the center of the frame 10, the protrusions 12 and 13 are equipped with a support 16 with a through hole 17 for the axis 7. The height of the supports 1,2,5 is made in such a way that the condition ( h (, l D) the distance between adjacent opo frame (t) is the same and less than the length of the frame 10.

The work of the proposed device is as follows. The frame 10 of the section of the arch of the furnace for the holes 14 and 15 of the protrusions 12 and 13 is removed by a crane from the furnace and transported to the proposed device. The removed arch section with the protrusion 13 is laid on the support 1, and the hole 17 of the support 16 is aligned with the hole 6 of the support 2. After aligning the holes 6 and 17, the axis 7 is installed in them and is secured from axial movement, for example, by the wedge 9. After that, from the opening 14 of the protrusion 12, the crane gripping mechanism is removed, and for the protrusion 13, the frame 10 is lifted up, turned around the axis 7 and the protrusion 13 is laid on the support 5. After that, the gripper

the crane mechanism is removed from the hole 15 of the protrusion 13 and the installation of the section on the device ends. After installing the section, the refractory masonry 11 is on top, and the frame 10 is at the bottom. Then, the old masonry 11 is destroyed and removed from the IO frame. After removing the destroyed masonry, a new masonry 11 is installed in its place over the entire area and is fixed by one of the known methods, for example, using protrusions and rigid plates. In this case, the installation and movement of the elements of the masonry 11 is carried out from above and its weight and volume do not affect the laying and moving them over the area of the frame. After fixing the masonry 11 over the entire area of the frame 10, the section is flipped to the transport position. For this, a grip of the lifting mechanism is fixed in the hole 15 of the protrusion 13 and the frame 10 is rotated together with the masonry And. The frame is rotated until the protrusion 13 touches the support 1. After that, another grip of the lifting mechanism is also installed in the hole 14 of the protrusion 12, the axis 7 is pulled and refreshes. The wedge 9 is knocked out and the axis 7 is removed from the holes of the support 2. After that, the entire section is lifted and installed on the furnace. A new section of the arch is installed on the device and the process of replacing worn masonry is repeated.

The proposed device can reduce the time to replace failed refractory masonry and improve the installation conditions of the new masonry on the arch section due to its location at the time of installation above the casing. In addition, the masonry is replaced outside the furnace, and after removal from the furnace, the furnace does not stop, because in its place, another section is installed with the masonry replaced., as a result, compared with the known devices for replacing the lining on the arch of the furnace, the time for replacing the masonry is reduced 10-15 times, and the replacement process is carried out outside the furnace.

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Claims (4)

1. A device for replacing the lining on the arch of the furnace, containing two fixed supports, fixed on the base and located on the same line, at a distance less than the length of the section of the arch, characterized in that one of the supports of the device is equipped with a node for fixing and turning the arch on it and is additionally equipped a third support located on the opposite side with respect to the support with the rotation unit and installed so that the support with the rotation unit is between them, and the height of the supports is different with respect to the main plane education. 2. The device according to claim 1, characterized in that the unit for fixing the arch on the middle support is made in the form of a removable axis and holes made in the upper part of the support. 3. The device according to claim 1, characterized in that in the middle support a groove is made, the length of which is at most equal to the length of the protrusions of the arch. 4. The device according to claim 1, characterized in that the height of the middle support is made greater than the height of the third support and less than the height of the fixed support located on the other side with respect to the third support.