阅读说明：本技术 一种用于电子显示玻璃生产的宽体熔窑 (Wide-body melting furnace for electronic display glass production ) 是由 彭寿 张冲 左泽芳 方强 曹志强 张治民 于 2019-11-18 设计创作，主要内容包括：本发明提供一种用于电子显示玻璃生产的宽体熔窑,它包括熔窑(1),在熔窑(1)内沿原料流动方向分为加料部(1a)、熔化部(1b)以及澄清部(1c),在熔化部(1b)的池壁上,对称设有一组第一加热电极(2),还对称设有一组第一富氧燃气枪(1e),其特征在于：在熔化部(1b)的池底上设有开孔(3),在熔化部(1b)内设有覆盖开孔(3)的罩体(4),所述的罩体(4)与开孔3形成与外界连通的空腔(4c),在罩体(4)上,设有一组与第一加热电极(2)对应分布的第二加热电极(5),还可设一组第二富氧燃气枪(6)。本发明构简单、改装方便,在不改变加热工艺条件下,通过增加熔窑宽度,来提高熔窑产能。(The invention provides a wide-body melting furnace for producing electronic display glass, which comprises a melting furnace (1), wherein the melting furnace (1) is internally divided into a feeding part (1 a), a melting part (1 b) and a clarifying part (1 c) along the flowing direction of raw materials, a group of first heating electrodes (2) are symmetrically arranged on the wall of the melting part (1 b), and a group of first oxygen-enriched gas guns (1 e) are also symmetrically arranged on the wall of the melting part (1 b), and the wide-body melting furnace is characterized in that: the bottom of the melting part (1 b) is provided with a hole (3), a cover body (4) covering the hole (3) is arranged in the melting part (1 b), the cover body (4) and the hole (3) form a cavity (4 c) communicated with the outside, a group of second heating electrodes (5) which are distributed corresponding to the first heating electrodes (2) are arranged on the cover body (4), and a group of second oxygen-enriched gas guns (6) can also be arranged. The invention has simple structure and convenient modification, and improves the productivity of the melting furnace by increasing the width of the melting furnace under the condition of not changing the heating process.)

1. The utility model provides a wide body melting furnace for electronic display glass production, it includes melting furnace (1), divide into charging portion (1 a), melting portion (1 b) and clarification portion (1 c) along raw materials flow direction in melting furnace (1), on the pool wall of melting portion (1 b), the symmetry is equipped with a set of first heating electrode (2), and still the symmetry is equipped with a set of first oxygen boosting gas rifle (1 e), its characterized in that: the bottom of the melting part (1 b) is provided with a hole (3), a cover body (4) covering the hole (3) is arranged in the melting part (1 b), the cover body (4) and the hole (3) form a cavity (4 c) communicated with the outside, a group of second heating electrodes (5) which are distributed corresponding to the first heating electrodes (2) are arranged on the cover body (4), and a group of second oxygen-enriched gas guns (6) can also be arranged.

2. A wide body melter for electronic display glass production as set forth in claim 1 in which: the axis of trompil (3) and the axis collineation of melting portion (1 b) bottom of the pool, trompil (3) length and melting portion (1 b) length match, and the both ends of trompil (3) are curved rectangular oval.

3. A wide body melter for electronic display glass production as set forth in claim 1 in which: the cover body (4) comprises cover walls (4 a) distributed annularly around the opening (3), the height of the cover walls (4 a) is higher than the upper surface of a glass melt (7) in the melting part (1 b), the installation distance required by the oxygen-enriched gas gun (6) can be reserved, and the top end of the cover walls (4 a) is also provided with a cover top (4 b).

The technical field is as follows:

the invention relates to the field of electronic display glass production, in particular to a wide-body melting furnace for electronic display glass production.

Background art:

in the field of electronic display glass production, the melting furnace consists of a feeding part, a melting part, a clarifying part and other parts, the vertical section comprises a tank bottom, a tank wall, a breast wall and an arch top, the tank wall needs to be air-cooled, the tank bottom and the tank wall are used for containing glass melt, upper spaces are arranged above the glass melt and below the arch top, and a smoke exhaust port is arranged on the breast wall.

In order to meet the technological requirements, the melting temperature of the glass melt is up to 1680 ℃, raw materials are melted by heaters (an oxygen-enriched gas gun and a heating electrode), the heaters are symmetrically arranged on the wall of a melting furnace tank, the oxygen-enriched gas gun is higher than the upper surface of the glass melt, the heating electrode is immersed in the glass melt, the oxygen-enriched gas gun is firstly used for heating, and after the glass melt is changed into a conductor at high temperature, the heating electrode is used for continuing heating.

The invention content is as follows:

the invention provides a wide-body melting furnace for producing electronic display glass, aiming at overcoming the defects in the prior art.

The application provides the following technical scheme:

the utility model provides a broad body melting furnace for electronic display glass production, it includes the melting furnace, divide into feeding portion, melting portion and clarification portion along raw materials flow direction in the melting furnace, on the pool wall of melting portion, the symmetry is equipped with a set of first heating electrode, and still the symmetry is equipped with a set of first oxygen boosting gas rifle, its characterized in that: the bottom of the melting part is provided with a hole, the length of the hole is matched with that of the melting part, a cover body for covering the hole is arranged in the melting part, the cover body is provided with a group of second heating electrodes which are distributed corresponding to the first heating electrodes, and the cover body can also be provided with a group of second oxygen-enriched gas guns.

On the basis of the technical scheme, the following further technical scheme can be provided:

the axis of the opening is collinear with the central axis of the bottom of the melting part, and two ends of the opening are arc-shaped long waist circles.

The cover body comprises a cover wall which is annularly distributed around the opening, the height of the cover wall is higher than the upper surface of the glass melt in the melting part, the mounting distance required by the oxygen-enriched gas gun can be reserved, the top end of the cover wall is also provided with a cover top, and a cavity communicated with the outside is formed between the cover wall and the inner side of the cover top.

The invention has the advantages that:

the invention has simple structure and convenient modification, and improves the productivity of the melting furnace by increasing the width of the melting furnace under the condition of not changing the heating process.

Description of the drawings:

FIG. 1: the invention has a structure schematic diagram;

FIG. 2: is a cross-sectional view B-B of fig. 1.

The specific implementation mode is as follows:

as shown in FIGS. 1 and 2, a wide-body melting furnace for electronic display glass production comprises a melting furnace 1, wherein the width of the melting furnace 1 is twice that of the original melting furnace, namely the melting area of the melting furnace 1 is twice that of the original melting furnace.

In the melting furnace 1, the melting furnace is divided into a charging part 1a, a melting part 1b and a clarifying part 1c along the material flowing direction, and one end of the clarifying part 1c is communicated with the subsequent process. All be equipped with exhaust port 1d on the breastwork of melting portion 1 b's both sides, wear to be equipped with a set of first oxygen boosting gas rifle 1e on the pool wall of every exhaust port 1d below, a set of first oxygen boosting gas rifle 1e be two rows, the symmetric distribution is on the pool wall of melting furnace both sides, is equipped with a set of first heating electrode 2 on the pool wall of first oxygen boosting gas rifle 1e below, a set of first heating electrode 2 divide into two rows, the symmetric distribution is on the pool wall of melting furnace both sides.

Be equipped with the trompil 3 that runs through the bottom of the pool on the bottom of the pool 1f of melting portion 1b, the axis of trompil 3 and the axis collineation of melting portion 1b bottom of the pool, the length of trompil 3 matches with the length of melting portion 1b, and the both ends of trompil 3 are curved rectangular oval.

A cover body 4 for covering the opening 3 is arranged in the melting part 1b, the cover body 4 comprises a cover wall 4a and a cover top 4b, and the refractory material used by the cover body 4 is the same as the pool wall.

The cover wall 4a is arranged in the melting furnace, is vertically arranged along the edge of the long strip waist-round opening 3 and comprises two straight walls a which are distributed in parallel and two arc-shaped walls b which are distributed symmetrically, the end parts of the two straight walls a are respectively connected with one arc-shaped wall b, and the two straight walls a and the two arc-shaped walls b form an annular structure surrounding the opening 3. The glass melt of the charging portion 1a flows into the melting portion 1b more smoothly due to the presence of the arc-shaped wall b. The mantle wall 4a has a level higher than the upper surface of the glass melt 7 in the melting section 1b and can leave a desired installation distance for the oxygen-enriched gas gun 6. The upper end of the housing wall 4a is covered with a housing top 4 b.

A group of second heating electrodes 5 which are correspondingly matched with the first heating electrodes 2 are respectively arranged on the straight walls a of the two cover walls 4a below the upper surface of the glass melt 7, and a group of second oxygen-enriched gas guns 6 can be respectively arranged on the straight walls a of the two cover walls 4a above the upper surface of the glass melt 7.

The opening 3 and the inner side of the cover body 4 form a cavity 4c with a downward opening and communicated with the outside, a blowing device which is not shown in the figure is arranged outside the melting furnace 1, the inside of the cavity 4c is cooled by air cooling, and the cavity 4c is an operation space required by replacing the second heating electrode 5 and the second oxygen-enriched gas gun 6.

As shown in FIGS. 1 and 2, the distance from the first heating electrode on the wall of the melting furnace 1 to the second heating electrode on the side of the mantle was not increased, i.e., the operating distance of the heating electrodes was not increased, the electrification voltage of the glass melt was not increased, and the electrode heating process parameters were not changed. Under the influence of the separation of the cover bodies, the melting parts are changed from one to two side by side, the melting area is doubled, the productivity is doubled, and the melting furnace 1 is more suitable for producing wide electronic display glass. Furthermore, a plurality of covers 4 may be provided in the width direction in the melting section 1b, thereby further increasing the width of the melting furnace 1 and further increasing the capacity of the electronic display glass melting furnace.

The wavy line in fig. 1 and 2 is a schematic line of the current between the second heating electrode and the first heating electrode.