CN214735339U - Novel glass melting furnace regenerator wall - Google Patents

Abstract

The utility model discloses a novel glass melting furnace regenerator wall body, include: the heat storage device comprises an inner wall body and a plurality of outer wall bodies, wherein the outer wall bodies are arranged on the outer side of the inner wall body, a heat storage chamber is formed in the inner wall body, the inner wall body comprises a plurality of inner wall body parts which are sequentially arranged, the inner wall body parts surround to form the heat storage chamber, and the outer walls of the inner wall body parts abut against the outer wall bodies; be formed with a plurality of expansion joint groups between two adjacent interior wall body portions, each expansion joint group all includes: the first expansion joint and the second expansion joint are arranged, one side of one inner wall body part is provided with a first wall surface, a second wall surface and a third wall surface from outside to inside in sequence, one side of the other inner wall body part is provided with a fourth wall surface, a fifth wall surface and a sixth wall surface from outside to inside in sequence, a first expansion joint is formed between the first wall surface and the fourth wall surface, a second expansion joint is formed between the third wall surface and the sixth wall surface, the second wall surface is in limit fit with the fifth wall surface, and the first expansion joint and the second expansion joint are arranged in a staggered mode. The utility model discloses simple structure is convenient, reliable and stable.

Description

Novel glass melting furnace regenerator wall

Technical Field

The utility model relates to a technical field of glass melting furnace regenerator especially relates to a novel glass melting furnace regenerator wall body.

Background

The regenerative chamber is an important component of the glass melting furnace taking air as a combustion improver, periodically absorbs the heat of flue gas through the checker bricks, reduces the temperature of the flue gas, emits heat to preheat the combustion-supporting air, enables fuel to be combusted to reach the temperature required by glass melting, and achieves the purposes of energy conservation and consumption reduction. The wall body of the heat storage chamber is built by a large number of refractory bricks with certain shapes and sizes, gaps are formed between the adjacent refractory bricks, and the gaps in the upper, lower, left and right directions must be staggered. The expansion joint of the refractory brick is a gap reserved for offsetting the volume expansion amount of the refractory brick at high temperature, and the size of the expansion joint is mainly determined according to the thermal expansion rate and the use temperature of the refractory brick. The staggered joint mode of refractory bricks in the wall body of the heat storage chamber has great influence on the stability and the sealing property of the wall body of the heat storage chamber. The expansion joint of the refractory bricks in the wall body of the heat storage chamber is reserved, so that the temperature rise and expansion of the wall body of the heat storage chamber are greatly influenced.

The tradition is because the fissure of displacement mode of resistant firebrick in the regenerator wall body is not too reasonable, cause the condition of partial glass melting furnace regenerator wall body slope and wearing fire in the use, because resistant firebrick's dilatation joint stays establishes the mode not too reasonable in the regenerator wall body, make the regenerator wall body hardly move toward dilatation joint when the intensification inflation, and it is more toward both ends removal, cause remaining dilatation joint great and regenerator wall body local deformation, finally cause the daily maintenance cost to increase, can influence the life of regenerator when serious.

Disclosure of Invention

Aiming at the problems of the existing glass melting furnace regenerator wall body, the novel glass melting furnace regenerator wall body is novel in structure, simple, convenient, stable and reliable.

The specific technical scheme is as follows:

a novel glass melting furnace regenerator wall body comprises: the heat storage chamber is formed by surrounding a plurality of inner wall bodies, and the outer walls of the inner wall bodies are abutted against the outer walls;

a plurality of expansion joint groups are formed between two adjacent inner wall parts, and each expansion joint group comprises: first dilatation joint and second dilatation joint, one side of interior wall somatic part has first wall, second wall and third wall in proper order from outer to interior, another one side of interior wall somatic part has fourth wall, fifth wall and sixth wall in proper order from outer to interior, first wall with form between the fourth wall first dilatation joint, the third wall with form between the sixth wall the second dilatation joint, the second wall with fifth wall limit fit, first dilatation joint with the crisscross setting of second dilatation joint.

In the novel glass melting furnace regenerator wall, the second expansion joint is communicated with the regenerator, and the first expansion joint is parallel to the second expansion joint.

The novel glass melting furnace regenerator wall body comprises a first wall surface, a second wall surface, a third wall surface, a sixth wall surface, a fifth wall surface and a sixth wall surface, wherein the first wall surface and the fourth wall surface are arranged in parallel, the second wall surface and the fifth wall surface are arranged in parallel, the first wall surface and the second wall surface are arranged perpendicularly, and the fifth wall surface and the sixth wall surface are arranged perpendicularly.

The novel glass melting furnace regenerator wall body is characterized in that a plurality of partition walls are arranged in the inner wall body, and the inner wall body forms a plurality of regenerators respectively through a plurality of partition walls.

In the novel glass melting furnace regenerator wall, the inner wall of the inner wall is provided with a plurality of grooves, and two sides of each partition wall respectively extend into the two grooves.

In the novel glass melting furnace regenerator wall, two sides of each partition wall are respectively opposite to the two expansion joint groups, and the two grooves are respectively communicated with the two second expansion joints.

The novel glass melting furnace regenerator wall body is characterized in that the inner wall body and the outer wall body are provided with a plurality of furnace mouth wall bodies, the furnace mouth wall bodies are internally provided with a plurality of furnace mouths, and the furnace mouths are communicated with the regenerators respectively.

The novel glass melting furnace regenerator wall body is characterized in that the outer wall of the inner wall body is provided with a plurality of installation spaces, the outer wall body is arranged in the installation spaces, and the outer wall of the outer wall body is flush with the outer wall of the inner wall body.

The novel glass melting furnace regenerator wall body is characterized in that the inner wall body is built by a plurality of main building bricks, a plurality of staggered joint bricks and a plurality of expansion bricks, and the outer wall body is built by a plurality of insulating bricks.

The novel glass melting furnace regenerator wall body further comprises: and the steel frames are respectively abutted against the outer walls of the outer walls and the inner walls.

Compared with the prior art, the technical scheme has the positive effects that:

the utility model discloses be formed with a plurality of expansion joint groups between the two adjacent interior wall body portions, the first expansion joint and the crisscross setting of second expansion joint of each expansion joint group, each expansion joint is organized inside and outside the expansion joint staggers promptly, and carry out staggering of expansion joint group about every 20 layers on the wall body direction of height, the structural stability and the leakproofness that make the regenerator wall body have all obtained the improvement, it is spacing each other between the double-phase adjacent interior wall body portion, interior wall body and outer wall body fuse, and spacing each other, the structural stability and the leakproofness that make expansion joint department regenerator wall body have all obtained the improvement.

Drawings

FIG. 1 is a schematic view of the overall structure of a wall body of a regenerative chamber of the glass melting furnace of the present invention;

FIG. 2 is an enlarged view of the regenerator wall of the glass melting furnace of the present invention at A in FIG. 1;

FIG. 3 is an enlarged view of the regenerator wall of the glass melting furnace of the present invention at B in FIG. 1;

in the drawings: 1. an inner wall; 2. an outer wall body; 3. a regenerator; 4. an inner wall portion; 5. an expansion joint group; 8. separating the wall body; 9. a groove; 10. a steel frame; 11. a first wall surface; 12. a second wall surface; 13. A third wall surface; 14. a fourth wall surface; 15. a fifth wall surface; 16. a sixth wall surface; 17. a furnace mouth wall body; 18. and (4) a furnace mouth.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.

Fig. 1 is the utility model relates to a novel overall structure schematic diagram of glass melting furnace regenerator wall body, fig. 2 is the utility model relates to a novel enlarger of A department in fig. 1 of glass melting furnace regenerator wall body, fig. 3 is the utility model relates to a novel enlarger of B department in fig. 1 of glass melting furnace regenerator wall body, as shown in fig. 1 to fig. 3, the novel glass melting furnace regenerator wall body of a preferred embodiment has been shown, include: interior wall body 1 and a plurality of outer wall body 2, a plurality of outer wall body 2 locate the outside of interior wall body 1, are formed with regenerator 3 in the interior wall body 1, and interior wall body is including a plurality of interior wall body portions 4 that set gradually, and a plurality of interior wall body portions 4 surround and form regenerator 3, and interior wall body portion 4's outer wall offsets with outer wall body 2.

Further, as a preferred embodiment, a plurality of expansion joint groups 5 are formed between two adjacent inner wall parts, and each expansion joint group 5 comprises: the expansion joint comprises a first expansion joint and a second expansion joint, wherein a first wall surface 11, a second wall surface 12 and a third wall surface 13 are sequentially arranged on one side of one inner wall body part 4 from outside to inside, a fourth wall surface 14, a fifth wall surface 15 and a sixth wall surface 16 are sequentially arranged on one side of the other inner wall body part 4 from outside to inside, a first expansion joint is formed between the first wall surface 11 and the fourth wall surface 14, a second expansion joint is formed between the third wall surface 13 and the sixth wall surface 16, the second wall surface 12 is in spacing fit with the fifth wall surface 15, and the first expansion joint and the second expansion joint are arranged in a staggered mode.

Further, as a preferred embodiment, a second expansion gap is communicated with the regenerator 3, and the first expansion gap and the second expansion gap are arranged in parallel.

Further, as a preferred embodiment, the first wall 11 is disposed parallel to the fourth wall 14, the third wall 13 is disposed parallel to the sixth wall 16, the second wall 12 is disposed parallel to the fifth wall 15, the first wall 11 is disposed perpendicular to the second wall 12, and the fifth wall 15 is disposed perpendicular to the sixth wall 16.

The above is merely an example of the preferred embodiments of the present invention, and the embodiments and the protection scope of the present invention are not limited thereby.

The utility model discloses still have following embodiment on above-mentioned basis:

in a further embodiment of the present invention, please continue to refer to fig. 1 to fig. 3, a plurality of partition walls 8 are disposed in the inner wall 1, and the inner wall 1 forms a plurality of regenerators 3 through the plurality of partition walls 8 respectively.

In a further embodiment of the present invention, the inner wall of the inner wall 1 has a plurality of grooves 9, and both sides of each partition wall 8 extend into the two grooves 9 respectively.

In a further embodiment of the present invention, two sides of each partition wall 8 are respectively opposite to the two expansion joint sets 5, and the two grooves 9 are respectively communicated with the two second expansion joints.

In a further embodiment of the present invention, a plurality of furnace mouth walls 17 are disposed on the inner wall 1 and the plurality of outer walls 2, a plurality of furnace mouths 18 are respectively disposed in the plurality of furnace mouth walls 17, and the plurality of furnace mouths 18 are respectively communicated with the plurality of regenerators 3.

The utility model discloses a further embodiment, interior wall body 1's outer wall is equipped with a plurality of installation spaces, and in a plurality of installation spaces were located respectively to a plurality of outer wall body 2, the outer wall of outer wall body 2 flushed mutually with interior wall body 1's outer wall.

The utility model discloses a further embodiment, interior wall body 1 builds through a plurality of main brick of building by laying bricks or stones, a plurality of fissure of displacement brick and a plurality of inflation brick, and a plurality of outer wall body 2 all builds through a plurality of insulating bricks.

The utility model discloses a further embodiment, novel glass melting furnace regenerator wall body still includes: and the steel frames 10 respectively abut against the outer walls of the outer walls 2 and the inner walls 1 of the outer walls.

The utility model discloses be formed with a plurality of expansion joint groups 5 between two adjacent interior wall body portions 4, the first expansion joint and the crisscross setting of second expansion joint of each expansion joint group 5, the expansion joint staggers in 5 in each expansion joint group promptly, and stagger of expansion joint group is carried out about every 20 layers on the wall body direction of height, the structural stability and the leakproofness that make the regenerator wall body have all obtained the improvement, it is spacing each other between the double-phase adjacent interior wall body portion 4, interior wall body 1 links into an organic whole with outer wall body 2, and it is spacing each other, the structural stability and the leakproofness that make expansion joint department regenerator wall body have all obtained the improvement.

The utility model discloses under the condition that does not increase the cost, build the brick through increasing multiple fissure of displacement brick, expansion joint brick and main building brick, make the resistant firebrick of regenerator wall construct by laying bricks or stones and become more simple and convenient, the resistant firebrick site work volume of processing reduces by a wide margin when building the construction by laying bricks or stones, has both reduced the construction work volume, has reduced resistant firebrick's loss again.

The utility model discloses a be formed with a plurality of expansion joint groups between double-phase adjacent interior wall body portion, these expansion joint groups stagger each other in the direction of height, wherein align from top to bottom about every 20 layers of vertical direction, and go round and back, make regenerator wall body move toward expansion joint department very easily when the inflation that heaies up, it is less to remove toward both ends, and whole wall body warp very little.

The above description is only an example of the preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and those skilled in the art should be able to realize the equivalent alternatives and obvious variations of the present invention.

Claims (10)

1. The utility model provides a novel glass melting furnace regenerator wall body which characterized in that includes: the heat storage chamber is formed by surrounding a plurality of inner wall bodies, and the outer walls of the inner wall bodies are abutted against the outer walls;

a plurality of expansion joint groups are formed between two adjacent inner wall parts, and each expansion joint group comprises: first dilatation joint and second dilatation joint, one side of interior wall somatic part has first wall, second wall and third wall in proper order from outer to interior, another one side of interior wall somatic part has fourth wall, fifth wall and sixth wall in proper order from outer to interior, first wall with form between the fourth wall first dilatation joint, the third wall with form between the sixth wall the second dilatation joint, the second wall with fifth wall limit fit, first dilatation joint with the crisscross setting of second dilatation joint.

2. The novel glass melter regenerator wall of claim 1 wherein the second expansion joint is in communication with the regenerator and the first expansion joint is disposed parallel to the second expansion joint.

3. The novel glass melter regenerator wall of claim 2 wherein the first wall surface is disposed parallel to the fourth wall surface, the third wall surface is disposed parallel to the sixth wall surface, the second wall surface is disposed parallel to the fifth wall surface, the first wall surface is disposed perpendicular to the second wall surface, and the fifth wall surface is disposed perpendicular to the sixth wall surface.

4. The novel glass melter regenerator wall as in claim 3, wherein a plurality of dividing walls are provided in said inner wall, said inner wall defining a plurality of said regenerators respectively by a plurality of said dividing walls.

5. The novel glass melter regenerator wall as in claim 4, wherein said inner wall has a plurality of grooves, and wherein each of said dividing walls has two sides extending into two of said grooves.

6. The novel glass melter regenerator wall as set forth in claim 5 wherein each of said dividing walls has opposite sides respectively opposite said two expansion joint sets and said two grooves respectively communicating with said two second expansion joints.

7. The novel glass melter wall as claimed in claim 4, wherein said inner wall and said plurality of outer walls are provided with a plurality of furnace opening walls, a plurality of furnace openings are respectively provided in said plurality of furnace opening walls, and a plurality of said furnace openings are respectively communicated with a plurality of said regenerators.

8. The novel glass melter regenerator wall as set forth in claim 1, wherein said inner wall has a plurality of mounting spaces formed on an outer wall thereof, and a plurality of said outer walls are respectively disposed in said plurality of mounting spaces, said outer walls being flush with said inner wall.

9. The novel glass melter regenerator wall of claim 1 wherein said inner wall is constructed from a plurality of main masonry bricks, a plurality of offset bricks, and a plurality of expansion bricks, and wherein a plurality of said outer walls are constructed from a plurality of insulating bricks.

10. The novel glass melter regenerator wall of claim 8 further comprising: and the steel frames are respectively abutted against the outer walls of the outer walls and the inner walls.

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