CN220098858U - Kang surface structure on upper part of large corner of tank wall of glass melting furnace - Google Patents

Abstract

The utility model discloses a kang surface structure at the upper part of a large corner of a tank wall of a glass melting furnace, wherein a kang surface main body is arranged above the large corner of the tank wall of the glass melting furnace, and in the horizontal direction, the kang surface main body and a connecting part are combined to form a triangular structure, and two side surfaces of the kang surface main body are connected with a wall body forming the large corner; corner pool walls are arranged below the side surfaces of the kang surface main body, which are not connected with the wall body; the connecting part is arranged at the connecting part of the kang surface main body, the wall body and the corner pool wall and is used for realizing tight connection and reserving an expansion space. According to the utility model, by reasonably reserving the expansion joint and the cover joint structure, the expansion space of the kang surface structure of the triangular area and the expansion space of the adjacent structure are ensured, besides the hook bricks are specially manufactured, the filling bricks of the triangular area can be built by standard bricks, the manufacturing cost can be reduced compared with the large bricks, and the technical problems of high cost, influence on the expansion of the adjacent structure and the like of the simple filling of the large bricks for the triangular area due to the fact that the expansion joint is not reserved in the prior art are solved.

Description

Kang surface structure on upper part of large corner of tank wall of glass melting furnace

Technical Field

The utility model belongs to the field of glass melting furnace design, and particularly relates to a kang surface structure at the upper part of a large corner of a tank wall of a glass melting furnace.

Background

When designing glass melting furnace, in order to make the glass liquid flow route that melts in the kiln more reasonable, reduce the corner glass liquid of right angle shape pool wall and form the dead angle district that hardly flows, at present can generally set the front and back pool wall corner of cooling part into the slope form of great angle to improve glass liquid quality. Along with the change of the pool wall structure, the corresponding upper structure needs to be synchronously improved so as to ensure the integral sealing of the part of the structure. It is common practice to fill the triangular area of the upper portion of the pool wall with large bricks with little effect when the area is small, but when the area is large in size, the simple filling again affects the expansion of the adjacent structure, and seriously even causes the adjacent walls to break up or down, or the individual bricks to crack.

Disclosure of Invention

The technical purpose of the utility model is to provide a kang surface structure at the upper part of a large corner of a tank wall of a glass melting furnace, so as to solve the prior art problems in the background art.

In order to solve the problems, the technical scheme of the utility model is as follows:

a kang surface structure for an upper portion of a large corner of a tank wall of a glass melting furnace, comprising:

kang surface main body, corner pool wall and connecting part;

the kang surface main body is arranged above a large corner of the glass melting furnace tank wall, and in the horizontal direction, the kang surface main body and the connecting part are combined into a triangular structure, wherein two side surfaces of the kang surface main body are connected with a wall body forming the large corner; corner pool walls are arranged below the side surfaces of the kang surface main body, which are not connected with the wall body;

the connecting part is arranged at the connecting part of the kang surface main body, the wall body and the corner pool wall and is used for realizing tight connection and reserving an expansion space.

The wall body comprises gable hook bricks and side wall hook bricks, and the gable hook bricks and the side wall hook bricks are connected to form large corners.

Wherein the kang surface main body comprises kang surface hook bricks, kang surface filling bricks and kang surface bottom insulating bricks;

two ends of the kang surface hook brick are respectively connected with the gable hook brick and the side wall hook brick through the connecting parts, and enclose a kang surface triangular area with the gable hook brick and the side wall hook brick, and kang surface filling bricks are paved in the kang surface triangular area;

the kang surface bottom insulating bricks are arranged below kang surface hook bricks and kang surface filling bricks, and corner pool walls are not arranged.

Specifically, the connecting part comprises a first expansion joint, a second expansion joint, a third expansion joint and a fourth expansion joint;

the first expansion joint and the second expansion joint are expansion joints reserved between two ends of a kang surface hook brick and a wall body;

the third expansion joint is an expansion joint reserved between a kang surface filling brick and a gable hook brick;

the fourth expansion joint is an expansion joint reserved between the kang surface filling brick and the side wall hook brick.

Wherein, special-shaped expansion joint bricks of kang surface hooks are laid in the first expansion joint and the second expansion joint, and cover joint bricks are laid in the third expansion joint and the fourth expansion joint.

Specifically, the kang surface hook bricks adopt a plurality of knife handle type bricks, the kang surface filling bricks adopt standard type bricks, and the kang surface bottom insulating bricks adopt standard type insulating bricks.

Specifically, the special-shaped expansion joint bricks of the kang surface hook are special-shaped expansion joint bricks, and the cover joint bricks are standard bricks.

By adopting the technical scheme, the utility model has the following advantages and positive effects compared with the prior art:

the utility model provides a kang surface structure at the upper part of a large corner of a tank wall of a glass melting furnace, which ensures expansion space of a triangle kang surface structure and an adjacent structure by reasonably reserving an expansion joint and a cover joint structure, besides the special manufacturing of hook bricks, triangle filling bricks can be built by standard bricks, compared with the large bricks, the manufacturing cost can be reduced, and the technical problems of high cost, influence on expansion of the adjacent structure and the like of the simple filling of the large bricks for the triangle are solved.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the utility model.

FIG. 1 is a plan view of a kang surface structure in the upper portion of a large corner of a tank wall of a glass melting furnace according to the present utility model;

FIG. 2 is a cross-sectional view taken along the direction of FIG. 1 A-A;

fig. 3 is a cross-sectional view taken along the direction of fig. 1B-B.

Description of the reference numerals

1: brick bed surface hook brick; 2: hook special-shaped expansion joint brick a on kang surface; 3: hook special-shaped expansion joint bricks b on kang surfaces; 4: brick filling on kang surface; 5: covering and sewing bricks; 6: corner pool walls; 7: gable hook bricks; 8: a side wall hook brick; 9: kang surface bottom insulating brick; x1: a first expansion joint; x2: a second expansion joint; y: a third expansion joint; z: and fourth expansion joint.

Detailed Description

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the following description will explain the specific embodiments of the present utility model with reference to the accompanying drawings. It is evident that the drawings in the following description are only examples of the utility model, from which other drawings and other embodiments can be obtained by a person skilled in the art without inventive effort.

For the sake of simplicity of the drawing, the parts relevant to the present utility model are shown only schematically in the figures, which do not represent the actual structure thereof as a product. Additionally, in order to simplify the drawing for ease of understanding, components having the same structure or function in some of the drawings are shown schematically with only one of them, or only one of them is labeled. Herein, "a" means not only "only this one" but also "more than one" case.

The kang surface structure at the upper part of a large corner of a tank wall of a glass melting furnace is further described in detail below with reference to the attached drawings and specific embodiments. Advantages and features of the utility model will become more apparent from the following description and from the claims.

Examples

Referring to fig. 1 to 3, the present embodiment provides a kang surface structure of the upper part of a large corner of a tank wall of a glass melting furnace, which is completed in a form with an expansion joint and a sealing structure and mainly comprises a kang surface main body, a corner tank wall 6 and a connecting part.

The kang surface main body is arranged above a large corner of the glass melting furnace tank wall, and is in a triangular structure as shown in fig. 1 when seen in the horizontal direction, wherein two sides of the kang surface main body are connected with a wall body, an expansion joint is reserved at the connection, and the expansion joint belongs to the connection, such as two expansion joints which are right angles in fig. 1. As shown in fig. 2 and 3, a corner pool wall 6 is arranged below the side surface of the kang surface main body which is not connected with the wall body. The connecting part is arranged at the connecting part of the kang surface main body, the wall body and the corner pool wall 6 and is used for realizing tight connection and reserving an expansion space.

The wall body comprises a gable hook brick 7 and a side wall hook brick 8, wherein the gable hook brick 7 and the side wall hook brick 8 are connected to form a large corner, and the corner shown in figure 1 is 90 degrees.

Specifically, the kang surface main body comprises kang surface hook bricks 1, kang surface filling bricks 4 and kang surface bottom insulating bricks 9. Two ends of the kang surface hook brick 1 are respectively connected with a gable hook brick 7 and a side wall hook brick 8 through connecting parts, and enclose a kang surface triangular area with the gable hook brick 7 and the side wall hook brick 8, and kang surface filling bricks 4 are paved in the kang surface triangular area. The kang surface bottom insulating brick 9 is arranged below the kang surface hook brick 1 and the kang surface filling brick 4, and is not provided with a corner pool wall 6.

Wherein, kang surface couple brick 1 is a set of knife handle type brick, and its both ends are connected with kang surface couple abnormal shape expansion joint brick a2 and kang surface couple abnormal shape expansion joint brick b3 respectively, conveniently encorbelments the masonry in the top of turning pool wall 6. The insulating bricks 9 are paved on the supporting steel structure of the triangular area of the kang surface. The kang surface filling bricks 4 in the triangular area are tightly connected with kang surface hook bricks 1. Wherein, kang surface filling brick 4 adopts standard brick, and cutting processing is carried out if necessary, and kang surface bottom insulating brick 9 adopts standard insulating brick.

Referring to fig. 1, in the present embodiment, specifically, the connection part includes a first expansion joint X1, a second expansion joint X2, a third expansion joint Y, and a fourth expansion joint Z. The first expansion joint X1 is an expansion joint reserved between the kang surface hook brick 1 and the gable hook brick 7, and the second expansion joint X2 is an expansion joint reserved between the kang surface hook brick 1 and the side wall hook brick 8. Further, kang surface hook special-shaped expansion joint bricks a2 and kang surface hook special-shaped expansion joint bricks b3 are respectively paved in the first expansion joint X1 and the second expansion joint X2. More precisely, the first expansion joint X1 is positioned between the kang surface hook brick 1 and the kang surface hook special-shaped expansion joint brick a2, and the second expansion joint X2 is positioned between the kang surface hook brick 1 and the kang surface hook special-shaped expansion joint brick b3. The third expansion joint Y is an expansion joint reserved between the kang surface filling brick 4 and the gable hook brick 7, and the fourth expansion joint Z is an expansion joint reserved between the kang surface filling brick 4 and the side wall hook brick 8. A cover seam brick 5 is paved in the third expansion seam Y and the fourth expansion seam Z, and is a standard brick, and is cut and processed if necessary; the joint bricks 5 are laid in a dry mode, and expansion of adjacent structures can be prevented from being influenced. In addition, the expansion joint sizes of the first expansion joint X1, the second expansion joint X2, the third expansion joint Y and the fourth expansion joint Z are required to be adjusted correspondingly according to the kang surface structural size, the adjacent gable hook brick 7 size and the side wall hook brick 8 size.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments. Even if various changes are made to the present utility model, it is within the scope of the appended claims and their equivalents to fall within the scope of the utility model.

Claims (7)

1. A kang surface structure of a large-scale corner upper portion of a tank wall of a glass melting furnace, comprising:

kang surface main body, corner pool wall and connecting part;

the kang surface main body is arranged above a large corner of the tank wall of the glass melting furnace, and in the horizontal direction, the kang surface main body and the connecting part are combined into a triangular structure, wherein two side surfaces of the kang surface main body are connected with a wall body forming the large corner; the corner pool wall is arranged below the side surface of the kang surface main body, which is not connected with the wall body;

the connecting part is arranged at the connecting part of the kang surface main body, the wall body and the corner pool wall and is used for realizing tight connection and reserving an expansion space.

2. The kang surface structure of claim 1, wherein the wall comprises gable hook bricks and side wall hook bricks, and the gable hook bricks are connected with the side wall hook bricks to form the large corner.

3. The kang surface structure of claim 2, wherein the kang surface main body comprises kang surface hook bricks, kang surface filling bricks and kang surface bottom insulating bricks;

the two ends of the kang surface hook brick are respectively connected with the gable hook brick and the side wall hook brick through the connecting parts, and form a kang surface triangular area together with the gable hook brick and the side wall hook brick, and the kang surface filling brick is laid in the kang surface triangular area;

the kang surface bottom insulating bricks are arranged below the kang surface hook bricks and the kang surface filling bricks, and the corner pool walls are not arranged.

4. The kang surface structure of claim 3, wherein the connecting part comprises a first expansion joint, a second expansion joint, a third expansion joint and a fourth expansion joint;

the first expansion joint and the second expansion joint are expansion joints reserved between two ends of the kang surface hook brick and the wall body;

the third expansion joint is an expansion joint reserved between the kang surface filling brick and the gable hook brick;

and the fourth expansion joint is an expansion joint reserved between the kang surface filling brick and the side wall hook brick.

5. The kang surface structure of claim 4, wherein kang surface hook special-shaped expansion joint bricks are laid in the first expansion joint and the second expansion joint, and cover joint bricks are laid in the third expansion joint and the fourth expansion joint.

6. The kang surface structure of claim 3, wherein the kang surface hook bricks are made of a plurality of handle-type bricks, the kang surface filling bricks are made of a plurality of standard bricks, and the kang surface bottom insulating bricks are made of standard insulating bricks.

7. The kang surface structure of claim 5, wherein the kang surface hook special-shaped expansion joint bricks are special-shaped expansion joint bricks, and the cover joint bricks are standard bricks.