CN218232187U - Tank furnace steel structure for producing microcrystalline cover plate glass based on rolling method - Google Patents

Abstract

The utility model discloses a pond furnace steel construction based on calendering method production microcrystalline cover plate glass, install the pond furnace girder at civil engineering stand top in the use, install the track roof beam top frame at pond furnace girder end again, install the bottom of the pool slider at pond furnace girder top, install the track roof beam at bottom of the pool slider top, install the secondary beam at track roof beam top, install the column base channel-section steel at the secondary beam edge, install the bottom of the pool insulating layer at pond furnace secondary beam top, install the bottom of the pool steel sheet at bottom of the pool insulating layer top, second pond furnace column mouting is on the secondary beam, first pond furnace column mouting is at the column base channel-section steel, install the pond furnace joist on the pond furnace stand, install pond furnace arch foot roof beam on the second pond furnace stand at last, this device bearing capacity is strong, improved the support to refractory material and glass liquid heavy weight, the production of microcrystalline cover plate glass has been made things convenient for.

Description

Tank furnace steel structure for producing microcrystalline cover plate glass based on rolling method

Technical Field

The utility model belongs to micrite apron glass tank furnace equipment field relates to a tank furnace steel construction based on calendering method production micrite apron glass.

Background

With the continuous development and improvement of cover glass technology, people begin to explore the microcrystalline glass industry, and microcrystalline glass has the advantages of glass and crystals, has excellent mechanical, thermal and photoelectric properties, and represents the development direction of cover glass in the 5G era.

The microcrystalline cover plate glass is a new technology in China, no mature technology and equipment exist in China at the research and development test stage at present, and no precedent in the aspect exists in the prior art in China; in addition, domestic cover plate glass production technology and equipment are mature, but microcrystalline cover plate glass belongs to a new technology and a new development direction in the field of cover plate glass, and the stock formula, kiln and channel refractory materials, platinum, a kiln channel steel structure and the like of microcrystalline cover plate glass do not have mature technologies at home.

In the production of cover glass, the production stability is very important, and in the existing production of cover glass, the weight of refractory materials and molten glass is extremely high, and no good technical method exists for supporting the refractory materials and the molten glass.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a tank furnace steel structure for producing microcrystalline cover plate glass based on a calendering method, which overcomes the problems in the prior art,

in order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a pond furnace steel construction based on calendering method production microcrystalline cover plate glass, its characterized in that, includes pond furnace civil engineering stand, pond furnace civil engineering stand is two sets of, and the girder is installed at the pond furnace civil engineering stand top adjacent with the group, and is two sets of install track Liang Dingjia between the girder, the bottom of a pool slider is installed at the girder top, the track roof beam is installed at bottom of a pool slider top, and is two sets of a plurality of secondary beams are installed at the top between the track roof beam, and the second pond furnace stand is installed at the outside secondary beam top, installs pond furnace arch foot roof beam between the adjacent second pond furnace stand, installs the column foot channel-section steel on the secondary beam end near the outside secondary beam, install first pond furnace stand on the column foot channel-section steel, the bottom of a pool insulating layer is installed to secondary beam top intermediate position, the bottom of a pool insulating layer top installs the pond bottom steel sheet, install the pond furnace joist on second pond furnace stand and the first pond furnace stand.

Preferably, a connecting beam is arranged between the two groups of main beams.

Preferably rails Liang Dingjia are mounted between the two sets of main beams at both ends.

Preferably, the two ends of the track beam are connected with the track beam top frame.

Preferably, a connecting beam is arranged between the two sets of track beams.

Preferably, the secondary beam is mounted on the rail beam by a bolted connection.

Preferably, the column shoe channel is mounted on the secondary beam by bolting.

Preferably, a first pull rod is arranged between the tops of the first tank furnace upright columns on the opposite sides.

Preferably, a second pull rod is arranged between the tops of the second tank furnace upright columns on the opposite sides.

Preferably, the arch foot beam of the pool furnace is arranged in the middle of the second pool furnace upright post.

Compared with the prior art, the utility model discloses following beneficial effect has: the utility model provides a tank furnace steel structure based on a calendaring method for producing microcrystalline cover plate glass, which comprises two groups of tank furnace civil engineering upright posts, wherein the top parts of the same group of adjacent tank furnace civil engineering upright posts are provided with main beams, a track Liang Dingjia is arranged between the two groups of main beams, the top parts of the main beams are provided with a tank bottom sliding part which is provided with track beams, a plurality of secondary beams are arranged at the top parts between the two groups of track beams, the top part of the outermost secondary beam is provided with a second tank furnace upright post, a tank furnace arch foot beam is arranged between the adjacent second tank furnace upright posts, a column foot channel steel is arranged on the secondary beam close to the outermost side channel steel secondary beam, a first tank furnace upright post is arranged on the column foot, a tank bottom insulating layer is arranged at the top part of the secondary beam, a tank bottom steel plate is arranged at the top part of the tank bottom insulating layer, tank furnace supporting iron is arranged on the second tank furnace upright post and the first tank furnace upright post, install the pond stove girder at civil engineering stand top in the use, install the track roof beam roof-rack at pond stove girder end again, install the bottom of a pool slider at pond stove girder top, install the track roof beam at bottom of a pool slider top, install the secondary beam at track roof beam top, install the column foot channel-section steel at the secondary beam edge, install the bottom of a pool insulating layer at pond stove secondary beam top, install the bottom of a pool steel sheet at bottom of a pool insulating layer top, second pond stove column mouting is on the secondary beam, first pond stove column mouting is at the column foot channel-section steel, install pond stove joist on the pond stove stand and install pond stove arch foot beam on second pond stove stand at last, this device bearing capacity is strong, improved the support to refractory material and glass liquid bulky weight, made things convenient for microcrystalline cover glass production.

Drawings

FIG. 1 is a front view of a tank furnace steel structure for producing microcrystalline cover plate glass based on a calendering method;

FIG. 2 is a side view of a steel structure of a tank furnace for producing microcrystalline cover plate glass based on a calendering method;

in the figure, 1-main beam, 2-track Liang Dingjia, 3-pool bottom sliding piece, 4-track beam, 5-secondary beam, 6-column foot channel steel, 7-pool bottom insulating layer, 8-pool bottom steel plate, 9-first pool furnace upright post, 10-pool furnace supporting iron, 11-pool furnace arch foot beam, 12-pool furnace civil engineering upright post, 13-second pool furnace upright post and 14-connecting beam.

Detailed Description

The present invention will now be described in further detail with reference to specific examples, which are intended to be illustrative, but not limiting, of the invention.

The utility model provides a pond furnace steel construction based on calendering method production microcrystalline cover plate glass, includes pond furnace civil engineering stand 12, pond furnace civil engineering stand 12 is two sets ofly, and girder 1 is installed at the pond furnace civil engineering stand 12 top adjacent with the group, and two sets of track Liang Dingjia is installed between 1, pond bottom slider 3 is installed at 1 top of girder, and pond bottom slider 3 installs track roof beam 4, and a plurality of secondary beam 5 are installed at the top between two sets of track roof beam 4, and second pond furnace stand 13 is installed at outside secondary beam 5 top, installs pond furnace arch foot roof beam 11 between the adjacent second pond furnace stand 13, installs column foot channel-section steel 6 on the secondary roof beam 5 that is close to outside secondary roof beam 5, install first pond furnace stand 9 on the column 6, the pond bottom insulating layer 7 is installed at the top of secondary roof beam 5, install the pond furnace joist steel sheet 8 on second pond furnace stand 13 and the first pond furnace stand 9, be provided with connection iron support 10 between two sets of girder 3214 between the track 3262 is installed between track 322 zxft Rail and track, and the second pond furnace roof beam top connection roof beam 13 is provided with the tie rod, and the top of the second pond furnace roof beam through the tie rod 13, the second pond furnace roof beam 4, the top of the second pond furnace roof beam is provided with the tie rod.

The embodiment is as follows:

as shown in fig. 1-2, the utility model provides a tank furnace steel structure based on calendering method production microcrystalline cover plate glass mainly comprises girder 1, track Liang Dingjia, tank bottom slider 3, track roof beam 4, secondary beam 5, column foot channel-section steel 6, tank bottom insulating layer 7, tank bottom steel sheet 8, tank furnace stand 9, tank furnace joist 10, tank furnace arch foot roof beam 11, tank furnace civil engineering stand 12, second tank furnace stand 13 and tie-beam 14, and specific embodiment is as follows:

firstly, mounting a main beam 1 on the top of a civil engineering upright post 12, and mounting a connecting beam 14 on the main beam 1;

secondly, installing the rail Liang Dingjia 2 at the end of the main beam 1 of the tank furnace by using bolts, nuts, gaskets and the like;

thirdly, mounting the pool bottom sliding part 3 on the top of the main beam 1 of the pool furnace;

fourthly, installing the track beam and the connecting beam 4 on the top of the pool bottom sliding part 3, and tightly jacking the steel plate on the end face of the track beam 4 by using a jackscrew of a track Liang Dingjia 2;

fifthly, mounting the secondary beam 5 on the top of the track beam 4 by using bolts, nuts, gaskets and the like;

sixthly, mounting the column base channel steel 6 at the edge of the secondary beam 5 by using bolts, nuts, gaskets and the like;

seventhly, mounting the tank bottom insulating layer 7 on the top of the secondary beam 5 of the tank furnace;

eighthly, mounting the pool bottom steel plate 8 on the top of the pool bottom insulating layer 7;

ninth, mounting the tank furnace upright post on the tank bottom steel structure, wherein the second tank furnace upright post 13 is mounted on the secondary beam, the second tank furnace upright post 13 is mounted on the column foot channel steel 6, the tank furnace longitudinal pull rod is mounted on the second tank furnace upright post 13, the tank furnace transverse pull rod is mounted on the second tank furnace upright post 13, and the tank furnace upright post longitudinal pull rod and the transverse pull rod are both mounted at the top of the tank furnace upright post;

tenth, mounting the pool furnace iron support 10 on the inner side of the pool furnace upright post close to the middle part;

the eleventh step, the pool furnace arch foot beam 11 is arranged on the inner side of the pool furnace side upright post close to the top together with the pool furnace arch foot brick.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, the present invention is not limited to the above-described embodiments and application fields, and the above-described embodiments are illustrative, instructive, and not restrictive. Those skilled in the art who have the benefit of this description will be able to devise various arrangements which, while indicating the scope of the invention, are able to protect from the outside without departing from the scope of the appended claims.

Claims (10)

1. The utility model provides a tank furnace steel construction based on calendering method production microcrystalline cover board glass, its characterized in that, including tank furnace civil engineering stand (12), tank furnace civil engineering stand (12) are two sets ofly, and girder (1) are installed at adjacent tank furnace civil engineering stand (12) top of same group, and are two sets of install track Liang Dingjia (2) between girder (1), tank bottom slider (3) is installed at girder (1) top, track roof beam (4) are installed at tank bottom slider (3) top, and are two sets of a plurality of secondary beam (5) are installed at the top between track roof beam (4), and second tank furnace stand (13) are installed at outside secondary beam (5) top, install tank furnace arch foot roof beam (11) between adjacent second tank furnace stand (13), install column foot channel-section steel (6) on the column foot channel-section steel (6), tank furnace stand (9) are installed to secondary beam (5) top intermediate position, tank furnace insulating layer (7) are installed at the insulating layer (8) of outside, and the tank furnace iron plate (13) are installed on the tank furnace stand (9).

2. The tank furnace steel structure for producing microcrystalline cover glass based on the calendering method as recited in claim 1, wherein a connecting beam (14) is arranged between two groups of main beams (1).

3. The tank furnace steel structure for producing the microcrystalline cover plate glass based on the calendering method as recited in claim 1, wherein the rails Liang Dingjia (2) are installed between two ends of two groups of the main beams (1).

4. The tank furnace steel structure for producing the microcrystalline cover plate glass based on the rolling method as claimed in claim 1, wherein two ends of the rail beam (4) are connected with rails Liang Dingjia (2).

5. The tank furnace steel structure for producing microcrystalline cover glass based on the calendering method as recited in claim 1, wherein a connecting beam is arranged between two sets of track beams (4).

6. The tank furnace steel structure for producing microcrystalline cover glass based on a calendering method as recited in claim 1, characterized in that the secondary beam (5) is mounted on the track beam (4) by bolt connection.

7. The tank furnace steel structure for producing microcrystalline cover glass based on the calendering method as recited in claim 1, wherein the column base channel steel (6) is installed on the secondary beam (5) through bolt connection.

8. The tank furnace steel structure for producing the microcrystalline cover glass based on the calendering method as recited in claim 1, wherein a first pull rod is arranged between the tops of the first tank furnace upright columns (9) at the opposite sides.

9. The tank furnace steel structure for producing the microcrystalline cover glass based on the calendering method as recited in claim 1, wherein a second pull rod is arranged between the tops of the second tank furnace upright columns (13) at the opposite sides.

10. The tank furnace steel structure for producing the microcrystalline cover plate glass based on the rolling method as claimed in claim 1, wherein the tank furnace arch foot beam (11) is arranged in the middle of the second tank furnace upright post (13).

Images