CN212334999U - Large-size split suspension forming furnace - Google Patents

Abstract

The utility model relates to a large-size split suspension forming furnace, which comprises a lower steel structure of the forming furnace, a flexible connecting unit and an upper steel structure of the forming furnace; the bottom end of the lower steel structure of the forming furnace is fixedly arranged at the upper end of the annealing furnace; the top end of the steel structure on the forming furnace is hung at the bottom end of the muffle furnace; the flexible connecting unit is of a reversed-square structure and is arranged between the lower steel structure of the forming furnace and the upper steel structure of the forming furnace, the bottom surface of the flexible connecting unit is placed on the top end surface of the lower steel structure of the forming furnace, and the top surface of the flexible connecting unit is tightly pressed below the bottom end surface of the upper steel structure of the forming furnace; the circumference outside limit of flexible coupling unit and shaping stove down the circumference outside limit of steel structure top terminal surface and shaping stove on the steel structure bottom terminal surface align the setting, the inboard side of circumference of flexible coupling unit and shaping stove down the inboard side of circumference of steel structure top terminal surface and shaping stove on the steel structure bottom terminal surface align the setting. The split suspension structure is simple in design, the position and the height of the forming furnace on the muffle furnace can be conveniently adjusted, and the soaking function structure and related adjustment operation of the forming furnace can be reliably realized.

Description

Large-size split suspension forming furnace

Technical Field

The utility model relates to a TFT base plate glass's former field specifically is a jumbo size components of a whole that can function independently hangs forming furnace.

Background

The forming furnace is a key device in the forming equipment for manufacturing the TFT substrate glass. Since the apparatus acts directly on the hot glass sheet to be formed, its structural design is critical to the forming of the glass. In actual production, the forming furnace is required to form a forming area with accurately adjustable temperature, and the set height of the forming furnace is required to be accurately adjusted according to process requirements, so that the forming furnace is convenient and reliable to detach from the forming furnace in an abnormal state. Because the forming furnace of the existing equipment is an integrated device, the forming furnace can not be arranged in a split mode, the position and the height of an upper steel structure of the forming furnace hung on a muffle furnace can not be adjusted, and the working efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the prior art, the utility model provides a jumbo size components of a whole that can function independently hangs forming furnace, this components of a whole that can function independently hangs structural design is simple, makes things convenient for the adjusting of forming furnace position and height on the muffle furnace, realizes forming furnace soaking functional structure and relevant adjustment operation reliably.

The utility model discloses a realize through following technical scheme:

a large-size split suspension forming furnace comprises a forming furnace lower steel structure, a flexible connecting unit and a forming furnace upper steel structure;

the bottom end of the lower steel structure of the forming furnace is fixedly arranged at the upper end of the annealing furnace;

the top end of the steel structure on the forming furnace is hung at the bottom end of the muffle furnace;

the flexible connection unit is back font structure, and the flexible connection unit setting is under the forming furnace between steel constructs and the forming furnace steel structure, and on the top end face of steel structure was constructed under the forming furnace was placed to the bottom surface of flexible connection unit, the top surface compressed tightly on the forming furnace under the bottom end face of steel structure.

Preferably, the circumference outside limit of flexible coupling unit and shaping stove down the circumference outside limit of steel structure top terminal surface and shaping stove on the steel structure bottom terminal surface align to set up, the circumference inside limit of flexible coupling unit and shaping stove down the circumference inside limit of steel structure top terminal surface and shaping stove on the steel structure bottom terminal surface align to set up.

Preferably, the soft connecting unit is made of aluminum silicate fiber cotton, and the thickness of the soft connecting unit is 30mm-60 mm.

Preferably, the extrusion thickness adjusting range of the flexible connecting unit between the lower steel structure of the forming furnace and the upper steel structure of the forming furnace is 10-30 mm.

Preferably, the lower steel structure equipment main body of the forming furnace comprises a lower welding steel structure, a lower steel structure hook plate, a lower steel structure heat preservation box, a lower steel structure heater and a lower steel structure process adjusting water pipe;

the lower welding steel structure is provided with a glass groove along the length direction from top to bottom;

the lower steel structure hook plate is fixedly arranged on two sides of the inlet end of the glass groove along the length direction of the lower welding steel structure by adopting screws;

the lower steel structure heat preservation box is welded or installed at the end plates at two sides in the lower part of the welded steel structure by using screws;

the lower steel structure heater adopts screws to install two sides inside the lower welding steel structure along the length direction of the lower welding steel structure;

the lower steel structure process adjusting water pipe is inserted from the lower part welding steel structure side end plate water pipe mounting seat along the length direction of the lower part welding steel structure in a penetrating manner.

Preferably, the steel structure equipment main body on the forming furnace comprises an upper welding steel structure, an upper steel structure hook plate, an upper steel structure soaking plate, an upper steel structure heat preservation box, an upper steel structure heater and an upper steel structure process adjusting water pipe;

the upper welding steel structure is provided with a glass groove along the length direction from top to bottom;

the upper steel structure hook plates are positioned at the upper end and the lower end of the upper welding steel structure, and are fixedly arranged at the two sides of the inlet end of the glass groove along the length direction of the upper welding steel structure by adopting screws;

the upper steel structure soaking plates are arranged between the upper steel structure hook plates at the upper end and the lower end by the retaining structures to form a forming area with uniform temperature;

the upper steel structure heat preservation box is welded or installed at the end plates at the two sides in the upper welding steel structure by using screws;

the upper steel structure heater adopts screws to install two sides inside the upper welding steel structure along the length direction of the upper welding steel structure;

the upper steel structure process adjusting water pipe is inserted from the upper welding steel structure side end plate water pipe mounting seat along the length direction of the upper welding steel structure in a penetrating manner.

Compared with the prior art, the utility model discloses following profitable technological effect has:

the utility model provides a large-size split suspension forming furnace, wherein a lower steel structure of the forming furnace is fixedly arranged on an annealing furnace, and an upper steel structure of the forming furnace is fixedly suspended at the bottom end of a muffle furnace, so that equipment of the forming furnace is effectively split; the steel constructs through the lift of annealing stove or translation or the lift or the translation of steel structure through the muffle furnace on the forming furnace under the forming furnace, can effectively adjust the forming furnace down the steel construct with the forming furnace on the steel construct between distance and position, the top terminal surface of steel structure is placed under the forming furnace to the flexible coupling unit, with the bottom end face contact of steel structure on the forming furnace, avoid steel structure and forming furnace under the forming furnace on the steel construct direct contact, conveniently adjust the forming furnace down the steel construct with the forming furnace on the steel construct between distance and the position.

Further, the circumference outside limit of flexible coupling unit and forming furnace down the circumference outside limit of steel structure top terminal surface and forming furnace on the steel structure bottom terminal surface align the setting, the inboard side of circumference of flexible coupling unit and forming furnace down the circumference of steel structure top terminal surface and forming furnace on the steel structure bottom terminal surface align the setting, the stability of steel structure and flexible coupling unit extrusion time under the steel structure and the forming furnace on the forming furnace has been improved, avoid rocking, the leakproofness of forming furnace components of a whole that can function independently structure has been improved.

Furthermore, the soft connection unit is made of aluminum silicate fiber cotton, the thickness of the soft connection unit is 30-60 mm, the aluminum silicate fiber cotton has high temperature resistance, the thermal stability is improved, the soft connection unit is rich in elasticity and resistant to mechanical vibration, and the split type of the forming furnace is effectively adjusted.

Furthermore, the extrusion thickness adjusting range of the flexible connecting unit between the lower steel structure of the forming furnace and the upper steel structure of the forming furnace is 10-30mm, and the height of the split structure of the forming furnace can be conveniently adjusted.

Further, the arrangement of internal components of the steel structure on the forming furnace and the steel structure under the forming furnace respectively ensures the work efficiency of the components of the upper steel hook and the lower steel structure after the split, and the steel structure on the forming furnace and the steel structure under the forming furnace are convenient to carry out effective position and height adjustment.

Drawings

FIG. 1 is a left side view of a large-sized split suspension forming furnace according to the present embodiment;

FIG. 2 is a schematic top view of a large-sized split suspension forming furnace according to the present embodiment;

FIG. 3 is a left side schematic view of a steel structure on the forming furnace in the embodiment;

FIG. 4 is a schematic structural view of the steel structure of the forming furnace in the present embodiment;

FIG. 5 is a left side schematic view of the lower steel structure of the forming furnace in the embodiment;

FIG. 6 is a schematic view of the lower steel structure of the forming furnace in this embodiment;

fig. 7 is a schematic cross-sectional view of the flexible connection unit in this embodiment.

In the figure: 1, a lower steel structure of a forming furnace; 2 is a soft connection unit; 3, forming the upper steel structure of the forming furnace; 11 is a lower welding steel structure; 12 is a lower steel structure hook plate; 13 is a lower steel structure heat preservation box; 14 is a lower steel structure heater; 15, a steel structure discharging process adjusting water pipe; 31, an upper welding steel structure; 32 is an upper steel structure hook plate; 33 is a steel structure soaking plate; 34 is an upper steel structure heat preservation box; 35 is a steel structure heater; and 36, a steel structure process adjusting water pipe.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings, which are provided for purposes of illustration and not limitation.

The utility model provides a large-size split suspension forming furnace, which comprises a forming furnace lower steel structure 1, a flexible connection unit 2 and a forming furnace upper steel structure 3; the bottom end of the lower steel structure 1 of the forming furnace is fixedly arranged at the upper end of the annealing furnace; the top end of the upper steel structure 3 of the forming furnace is hung at the bottom end of the muffle furnace; the flexible connection unit 2 is of a structure shaped like a Chinese character 'hui', the flexible connection unit 2 is arranged between the lower steel structure 1 of the forming furnace and the upper steel structure 3 of the forming furnace, the bottom surface of the flexible connection unit 2 is placed on the top end surface of the lower steel structure 1 of the forming furnace, and the top surface is tightly pressed below the bottom end surface of the upper steel structure 3 of the forming furnace, as shown in fig. 1; the top view of the large-size split suspension forming furnace is shown in figure 2.

The main body of the steel structure 3 on the forming furnace comprises an upper welding steel structure 31, an upper steel structure hook plate 32, an upper steel structure soaking plate 33, an upper steel structure heat preservation box 34, an upper steel structure heater 35 and an upper steel structure process adjusting water pipe 36, wherein the upper welding steel structure 31 is provided with a glass groove along the length direction from top to bottom, as shown in fig. 3 and 4;

the steel structure hook plates 32 are positioned at the upper end and the lower end of the upper welding steel structure 31, and the upper steel structure hook plates 32 are fixedly installed at the two sides of the inlet end of the glass groove along the length direction of the upper welding steel structure 31 by adopting screws; the upper steel structure soaking plates 33 are arranged between the upper steel structure hook plates 32 at the upper end and the lower end by the stop buckle structure to form a forming area with uniform temperature; the upper steel structure heat preservation box 34 is welded or installed at the end plates at the two sides in the upper welding steel structure 31 by using screws; the upper steel structure heater 35 is used for installing two sides inside the upper welding steel structure 31 along the length direction of the upper welding steel structure 31 by adopting screws; the upper steel structure process adjustment water pipe 36 is inserted through the upper welding steel structure 31 from the upper welding steel structure 31 side end plate water pipe mounting seat along the length direction of the upper welding steel structure 31.

The main body of the lower steel structure 1 equipment of the forming furnace comprises a lower welding steel structure 11, a lower steel structure hook plate 12, a lower steel structure heat preservation box 13, a lower steel structure heater 14 and a lower steel structure process adjusting water pipe 15; the lower welding steel structure 11 is provided with a glass groove along the length direction from top to bottom, as shown in fig. 5 and 6;

the lower steel structure hook plate 12 is fixedly arranged on two sides of the inlet end of the glass groove along the length direction of the lower welding steel structure 11 by screws; the lower steel structure heat preservation box 13 is welded or installed at the end plates at the two sides in the lower welding steel structure 11 by using screws; the lower steel structure heater 14 is installed on two sides inside the lower welding steel structure 11 by adopting screws along the length direction of the lower welding steel structure 11; the lower steel structure process adjusting water pipe 15 is inserted from the lower welding steel structure 11 side end plate water pipe mounting seat along the length direction of the lower welding steel structure 11.

The soft connection unit 2 is in a structure of a Chinese character 'hui', as shown in fig. 7; the circumference outside limit of flexible coupling unit 2 and forming furnace down the circumference outside limit of steel structure 1 top terminal surface and forming furnace on the steel structure 3 bottom terminal surfaces align the setting, the inboard side of circumference of flexible coupling unit 2 and forming furnace down the circumference inboard side of steel structure 1 top terminal surface and forming furnace on the steel structure 3 bottom terminal surfaces align the setting.

The design requires to combine product specifications, design the sizes of a main body of a lower steel structure 1 of the forming furnace and a main body of an upper steel structure 3 of the forming furnace, and require to combine the sizes of the main bodies to design various different functional parts, mainly comprising hook plates, heat preservation boxes, soaking boxes, heaters, process adjusting water pipes and the like in the main body of the lower steel structure 1 of the forming furnace and the upper steel structure 3 of the forming furnace; the material used in the key part of the device is optimized special steel and special refractory material, which can ensure that the device does not generate large deformation and the material is obviously carbonized after long-time service.

The utility model relates to a jumbo size components of a whole that can function independently hangs when forming furnace uses:

fastening and hanging the upper end part of the steel structure 3 on the forming furnace at the lower end of the muffle furnace by using screws; the lower end part of the forming furnace lower steel structure 1 is fixedly arranged at the upper end of the annealing furnace by screws, so that the forming furnace upper steel structure 3 and the forming furnace lower steel structure 1 are separated, the forming furnace lower steel structure 1 adjusts the distance between the forming furnace upper steel structure 3 and the forming furnace lower steel structure 1 by the lifting motion of the annealing furnace, and the positions of the forming furnace upper steel structure 3 and the forming furnace lower steel structure 1 are adjusted by horizontal movement; placing the flexible connection unit 2 on the top end surface of the lower steel structure 1 of the forming furnace; the soft connecting unit 2 is made of aluminum silicate fiber cotton with the thickness of 50mm, when the annealing furnace pushes the lower steel structure 1 of the forming furnace to ascend, the top surface of the soft connecting unit 2 is in contact with the bottom end surface of the upper steel structure 3 of the forming furnace and generates extrusion, and the thickness of the soft connecting unit 2 after being compressed is adjusted to be 10-30 mm; thereby make the forming furnace reach the components of a whole that can function independently work, make things convenient for the adjusting to position and height of steel structure 1 under forming furnace steel structure 3 and the forming furnace on the forming furnace in the work.

Claims (6)

1. A large-size split suspension forming furnace is characterized by comprising a forming furnace lower steel structure (1), a soft connection unit (2) and a forming furnace upper steel structure (3);

the bottom end of the forming furnace lower steel structure (1) is fixedly arranged at the upper end of the annealing furnace;

the top end of the upper steel structure (3) of the forming furnace is suspended at the bottom end of the muffle furnace;

soft linkage unit (2) are back font structure, and soft linkage unit (2) set up under the forming furnace on steel structure (1) and the forming furnace steel structure (3) between, and the bottom surface of soft linkage unit (2) is placed under the forming furnace on the top terminal surface of steel structure (1), and the top surface compresses tightly on the forming furnace under the bottom terminal surface of steel structure (3).

2. The large-size split suspension forming furnace is characterized in that the circumferential outer side edges of the flexible connecting units (2) are aligned with the circumferential outer side edges of the top end face of the lower steel structure (1) of the forming furnace and the bottom end face of the upper steel structure (3) of the forming furnace, and the circumferential inner side edges of the flexible connecting units (2) are aligned with the circumferential inner side edges of the top end face of the lower steel structure (1) of the forming furnace and the bottom end face of the upper steel structure (3) of the forming furnace.

3. The large-size split suspension forming furnace is characterized in that the soft connecting unit (2) is made of aluminum silicate fiber cotton and has the thickness of 30-60 mm.

4. The large-sized split suspension forming furnace according to claim 1, wherein the extrusion thickness adjustment range of the flexible connection unit (2) between the lower steel structure (1) and the upper steel structure (3) of the forming furnace is 10-30 mm.

5. The large-size split suspension forming furnace is characterized in that the equipment main body of the lower steel structure (1) of the forming furnace comprises a lower welding steel structure (11), a lower steel structure hook plate (12), a lower steel structure heat preservation box (13), a lower steel structure heater (14) and a lower steel structure process adjusting water pipe (15);

the lower welding steel structure (11) is provided with a glass groove along the length direction from top to bottom;

the lower steel structure hook plate (12) is fixedly arranged on two sides of the inlet end of the glass groove along the length direction of the lower welding steel structure (11) by screws;

the lower steel structure heat preservation box (13) is welded or installed at the end plates at two sides in the lower welding steel structure (11) through screws;

the lower steel structure heater (14) is installed on two sides of the interior of the lower welding steel structure (11) by screws along the length direction of the lower welding steel structure (11);

the lower steel structure process adjusting water pipe (15) is inserted from the lower welding steel structure (11) side end plate water pipe mounting seat along the length direction of the lower welding steel structure (11).

6. The large-size split suspension forming furnace is characterized in that the equipment main body of the upper steel structure (3) of the forming furnace comprises an upper welding steel structure (31), an upper steel structure hook plate (32), an upper steel structure soaking plate (33), an upper steel structure heat preservation box (34), an upper steel structure heater (35) and an upper steel structure process adjusting water pipe (36);

the upper welding steel structure (31) is provided with a glass groove along the length direction from top to bottom;

the upper steel structure hook plates (32) are positioned at the upper end and the lower end of the upper welding steel structure (31), and the upper steel structure hook plates (32) are fixedly installed on the two sides of the inlet end of the glass groove along the length direction of the upper welding steel structure (31) by screws;

the upper steel structure soaking plates (33) are arranged between the upper steel structure hook plates (32) at the upper end and the lower end by the retaining structures to form a forming area with uniform temperature;

the upper steel structure heat preservation box (34) is welded or installed at the end plates at the two sides in the upper welding steel structure (31) through screws;

the upper steel structure heater (35) is installed on two sides of the inside of the upper welding steel structure (31) by screws along the length direction of the upper welding steel structure (31);

the upper steel structure process adjusting water pipe (36) is inserted from the upper welding steel structure (31) side end plate water pipe mounting seat along the length direction of the upper welding steel structure (31) in a penetrating mode.

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