CN218627754U - Brick masonry structure for discharge area of rotary refining furnace - Google Patents

Abstract

The utility model belongs to the technical field of furnace structure builds by laying bricks or stones, specifically disclose a rotation refining furnace puts out regional brick masonry structure, including putting out regional and circumference barrel brick, circumference barrel brick and the seamless butt joint of putting out regional brick body, the base brick is built by laying bricks or stones on lower part circumference barrel brick, it has the combination eye brick to build by laying bricks or stones on the base brick, the brick is built by laying bricks or stones to the both sides of combination eye brick, it has the apron brick to build by laying bricks or stones above the last combination eye brick, the angle of building by laying bricks or stones of apron brick is confirmed by upper portion circumference barrel brick and combination eye brick. The utility model discloses a masonry structure intensity is high, stability is high, and it is inseparable, not fragile to combine with circumference lining body on every side. Wherein, the contact among the eye brick, the base brick, the cover plate brick and the surrounding brick is tight and is not easy to generate gaps. Has the advantages of convenient patching, difficult leakage in the production process and safe discharge of the melt in the metallurgical furnace.

Description

Brick masonry structure for discharge area of rotary refining furnace

Technical Field

The utility model belongs to the technical field of furnace body structure is built by laying bricks or stones, concretely relates to rotation refining furnace puts out regional brick masonry structure of mouth.

Background

The lining of the discharge port of the traditional rotary refining furnace for refining crude metal is the same as the masonry structure of a barrel brick, and is subjected to eye burning and discharge after the masonry is finished. The masonry structure has weak target, and if the weak part is burned in the burning process, the brick body is easy to crack and the melt leaks. Meanwhile, the discharge area is eroded and mechanically impacted by high-temperature melt for a long time due to poor use conditions, so that the loss is fast, the service life is short, and the overhaul frequency is high. And the tap is embedded with the circumferential cylinder body at the periphery into a whole in a staggered joint manner during maintenance, so that the difficulty in patching is high, the sizes and the expansions of the new brick and the old brick are inconsistent, and the occurrence accident of melt leakage caused by the formation of gaps is easy to happen.

Therefore, the traditional rotary refining furnace tapping hole area masonry structure has the problems of unreasonable masonry structure, short service life, high overhaul frequency, difficulty in patching and low safety.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a rotation refining furnace is put out regional brick masonry structure of export to solve rotation refining furnace and put out regional masonry structure unreasonable, the short service life of export, overhaul the frequency height, be difficult for mending and the not high problem of security.

In order to satisfy the above-mentioned purpose, the utility model discloses the technical scheme who takes does:

a brick masonry structure of an outlet area of a rotary refining furnace comprises an outlet area and a circumferential cylinder brick, wherein the circumferential cylinder brick is in seamless butt joint with the brick body of the outlet area, a base brick is masonry on the circumferential cylinder brick at the lower part, a combined eye brick is masonry on the base brick and is formed by combining 4 eye bricks, the centers of the 4 combined eye bricks are on the same line and are horizontal, the opening positions of the 4 eye bricks are different, a channel can be formed after combination, the size of a central hole of the combined eye brick is determined according to melt discharge amount, surrounding bricks are masonry at two sides of the combined eye brick in a straight-through masonry joint mode, the angle of the surrounding bricks is consistent with that of the circumferential cylinder brick, a cover plate brick is masonry on the last combined eye brick, and the masonry angle of the cover plate brick is determined by the upper circumferential cylinder brick and the combined eye brick.

Preferably, the angle of the base brick is determined by the lower circumferential cylinder brick and the combined eye brick (2) so as to ensure that the central line of the combined eye brick is consistent with and horizontal to the central line of the opening of the refining furnace shell.

Preferably, the length of the combined eye brick is consistent with that of the circumferential cylinder brick, the thickness of the combined eye brick is integral multiple of that of the circumferential cylinder brick, and the width of the combined eye brick is integral multiple of the size of the central hole plus the thickness of the mortar joint, so that the base brick and the cover plate brick can be built conveniently.

The utility model has the advantages that:

the utility model discloses a masonry structure intensity is high, stability is high, combines closely, not fragile with circumference lining body on every side. Wherein, the contact among the eye brick, the base brick, the cover plate brick and the surrounding brick is tight and is not easy to generate gaps. Has the advantages of convenient patching, difficult leakage in the production process and safe discharge of the melt of the metallurgical furnace.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a side view of the present invention;

in the figure: 1. a base brick; 2. combining the eye tiles; 3. surrounding bricks; 4. a cover plate brick; 5. a circumferential cylinder brick.

Detailed Description

The invention will be further described with reference to the following figures and examples:

as shown in figures 1 and 2, the brick masonry structure of the discharge opening area of the rotary refining furnace comprises a discharge opening area and a circumferential cylinder brick 5, the circumferential cylinder brick 5 and the brick of the discharge opening area are in seamless butt joint and are tightly combined, a base brick 1 is masonry on the circumferential cylinder brick 5 at the lower part, the angle is determined by the circumferential cylinder brick 5 at the lower part and a combined eye brick 2 and then is cut by a wide standard brick so as to ensure that the central line of the combined eye brick 2 is consistent with and level with the central line of the opening of the furnace shell, the combined eye brick 2 is masonry on the base brick 1, the combined eye brick 2 is formed by combining 4 eye bricks, the centers of the 4 combined eye bricks are on the same line and level, the opening positions of each brick of the 4 eye bricks are different, a channel can be formed after combination, the radian is consistent with the radian of the furnace shell, and the shape is a fan ring shape after combination, the length of the combined eye brick 2 is consistent with that of the circumferential cylinder brick 5, the thickness is integral multiple of the circumferential cylinder brick 5, the width is designed to be integral multiple of 75mm or 100mm plus the thickness of a mortar joint according to the size of a central hole so as to facilitate the building of a base and a cover plate, the size of the central hole of the combined eye brick 2 is determined according to the discharge amount of a melt, surrounding bricks 3 are built on two sides of the combined eye brick 2, a wide brick is used for improving the strength and the anti-scouring capability of the part, the building mode is straight-through seam building so as to facilitate digging, repairing and replacing, the surrounding bricks adopt wedge-shaped bricks, the angle of the surrounding bricks 3 is consistent with that of the circumferential cylinder brick 5, a cover plate brick 4 is built on the last combined eye brick 2, the building angle of the cover plate brick 4 is determined by the upper circumferential cylinder brick 5 and the combined eye brick 2, and the cover plate is cut by using a wide standard brick after the building angle is determined.

During building, firstly building a circumferential cylinder brick 5 at the lower part of the outlet area, after building is finished, pre-building a combined eye brick 2, and firstly padding the lower part to test the levelness, verticality and concentricity of the combined eye brick 2 and aligning the levelness, verticality and concentricity with the opening of the furnace shell; measuring the distance between the lower circumferential cylinder brick 5 and the 1 st combined eye brick 2 after the pre-building is finished, and cutting the base brick 1 by using a standard wide brick according to the measured dimension to ensure that the thickness of the upper opening is not less than two layers of circumferential cylinder bricks; the 2 nd, 3 rd and 4 th combined eye bricks 2 are sequentially built, the levelness, the verticality and the concentricity are ensured, and the combined eye bricks are aligned with the openings of the furnace shell; when two side wall bricks 3 of the combined eye brick 2 are built, a straight-through seam of a circumferential barrel wide brick 5 is used for building, the levelness, the verticality and the concentricity are ensured, the combined eye brick 2 is tightly attached, wet building is realized, and mortar is full; the circumferential cylinder bricks 5 on the two sides of the surrounding brick 3 are filled up, and the wet mortar is full; pre-building and measuring the distance between the upper circumferential cylinder brick 5 and the 4 th combined eye brick 2, and cutting the cover plate brick 4 by using a standard wide brick according to the measured dimension to ensure that the thickness of the upper opening is not less than two layers of circumferential cylinder bricks; the circumferential cylinder bricks 5 on the two sides of the cover plate brick 4 are completely repaired, and the wet mortar is full; and (5) building a circumferential cylinder 5 at the upper part of the cover plate brick 4, performing broken joint building, and fully building wet mortar.

And the discharge outlet of the rotary refining furnace is used for discharging refined crude metal from the furnace to a chute and then casting after the crude metal refining period is finished. Put out regional brick masonry structure of mouth, at the structure main action for compressing tightly, connecting, transition circumference barrel inside lining, the protection stove outer covering is not burnt by the fuse-element and decreases, must guarantee simultaneously that the discharge hole is level when the discharge position, neither pitch up nor pitch down to avoid the fuse-element splash to strike the chute, with control its flow, velocity of flow and flow direction. The brick body of the discharge opening area is in seamless transition and connection with the circumferential cylinder brick 5 and is integrated into a whole so as to ensure integrity, tightness and leakage prevention; and the two parts are required to exist oppositely and uniformly for replacement and local patching. The masonry structure can be divided into a combined eye brick 2, a base brick 1 (also called an adjusting brick), a cover plate brick 4 (also called an adjusting brick) and two side wall bricks 3, the base brick 1, the combined eye brick 2, the two side wall bricks 3 and the cover plate brick 4 are arranged in the masonry sequence, and the angle of the masonry structure after the masonry is finished must be consistent with the angle of other bricks of the circumferential cylinder. After the combined bricks in the discharge port area are built, the appearance of the combined bricks is completely consistent with that of the circumferential cylinder bricks 5, and the combined bricks are not staggered and are tightly combined with the circumferential cylinder bricks. The combined eye bricks 2 are 4 blocks, the base brick 1 and the cover plate brick 4 are formed by cutting wide bricks according to required angles and eye brick widths, the width of the combined eye bricks is consistent with the eye brick width, the two side wall bricks 3 are wide bricks and built into a straight seam, and the combined eye bricks are surrounded among the base brick 1, the side wall bricks 3 and the cover plate brick 4 after the building is finished. The whole rotary refining furnace lining can be roughly divided into an end wall, a circumferential cylinder and a furnace mouth, and a brick body in the discharge port area is embedded in the circumferential cylinder. When the rotary refining furnace is built, the end wall is built firstly, then the circumferential cylinder is built by using a rotary building method, and the taphole bricks are built synchronously in the building process of the circumferential building body. The masonry structure has high strength and stability, is tightly combined with the surrounding circumferential lining body, and is not easy to damage. The contact among the eye brick, the base brick, the cover plate brick and the surrounding brick is tight, the gap is not easy to generate, and the method has the advantages of convenient patching, difficult leakage in the production process and safe discharge of the melt of the metallurgical furnace.

Claims (3)

1. The utility model provides a regional brick masonry structure of export is put to rotation refining furnace which characterized in that: the combined eye brick comprises a discharge opening area and a circumferential cylinder brick (5), wherein the circumferential cylinder brick (5) is in seamless butt joint with a brick body of the discharge opening area, a base brick (1) is built on the circumferential cylinder brick (5), a combined eye brick (2) is built on the base brick (1), the combined eye brick (2) is formed by combining 4 eye bricks, the centers of the 4 combined eye bricks are on the same line and are horizontal, the opening positions of the 4 eye bricks are different, a channel can be formed after combination, the size of a central hole of the combined eye brick (2) is determined according to the discharge amount of a melt, surrounding bricks (3) are built on two sides of the combined eye brick (2), the building mode of the surrounding bricks (3) is straight-through, the angle of the surrounding bricks (3) is consistent with that of the circumferential cylinder brick (5), a cover plate brick (4) is built on the last eye brick (2), and the building angle of the cover plate brick (4) is determined by the upper circumferential cylinder brick (5) and the combined eye brick (2).

2. The rotary refining furnace tap hole area brick masonry structure of claim 1, wherein: the angle of the base brick (1) is determined by the lower circumferential cylinder brick (5) and the combined eye brick (2) so as to ensure that the central line of the combined eye brick (2) is consistent with the central line of the opening of the refining furnace shell and is horizontal.

3. The rotary refining furnace tap hole area brick masonry structure of claim 1, wherein: the length of the combined eye brick (2) is consistent with that of the circumferential cylindrical brick (5), the thickness of the combined eye brick is integral multiple of that of the circumferential cylindrical brick (5), and the width of the combined eye brick is integral multiple of the size of the central hole plus the thickness of the mortar joint, so that the base brick (1) and the cover plate brick (4) can be built conveniently.

Images