CN214991121U - Molten glass stabilizing device - Google Patents

Abstract

The utility model relates to a glass production technical field provides a glass liquid stabilising arrangement. When the glass liquid stabilising arrangement used, the cooling tube among the subassembly immerses in the glass liquid and is located the card neck department in kiln pond, because the horizontal convection current of card neck department of glass liquid in kiln pond can strengthen, back in the cooling tube immerses glass liquid, form between the card neck department in kiln pond and the bottom of the pool in other words and keep off the bank, thereby effectively alleviateed the impact of glass liquid to kiln pond bottom of the pool, and the cooling liquid gets into the glass liquid cooling to corresponding department behind the cooling tube, the immobile layer of glass liquid has been increased, thereby further avoid glass liquid to strike and form the difficult bubble of effluvium to the bottom of the pool, effectively improve the quality of glass production. And through the setting of adjusting part, can adjust suitable position with the cooling tube to satisfy the production demand better, produce the glass of higher quality.

Description

Molten glass stabilizing device

Technical Field

The utility model relates to a glass production technical field, in particular to glass liquid stabilising arrangement.

Background

Solar glass becomes a new economic growth point in the photovoltaic glass industry. Meanwhile, the production lines of the ultra-white rolled glass are more and more, and the market ultra-white rolled glass is more and more competitive in China, so that the quality requirement of the ultra-white rolled glass is higher and higher, the product quality and the yield are improved, the production cost is reduced, and the enterprise competitiveness can be enhanced.

At present, the production characteristics of ultra-white rolled glass are as follows: the convection in the horizontal direction is strong, the glass liquid flow with high flow speed forms strong backflow after the neck is blocked, and the erosion of the refractory material is serious, so that the refractory material at the bottom of the melting furnace pool is corroded to generate bubbles, the bubbles from the bottom pass through the middle-lower glass liquid and rise to the formed glass liquid flow, the temperature of the glass liquid in the area is low, the bubbles cannot be discharged or absorbed by the glass liquid and stay in the glass liquid all the time, and finally, bubble-type glass defects are formed after glass forming annealing, and the glass quality and the finished product rate are influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a safety device aims at solving the unstable convection current of glass liquid and influences the problem of glass production quality in the current glass production process.

In order to achieve the above object, the utility model adopts the following technical scheme: a molten glass stabilization device for cooling molten glass in a furnace tank, comprising:

the cooling device comprises a pipe assembly, a cooling pipe and a cooling pipe, wherein the pipe assembly comprises a liquid inlet pipe, a cooling pipe and a liquid outlet pipe which are sequentially communicated along the flowing direction of cooling liquid, the liquid inlet pipe and the liquid outlet pipe are both positioned outside a kiln pool, and the cooling pipe is immersed in glass liquid and positioned at a neck of the kiln pool;

and the adjusting assembly is connected to the liquid inlet pipe and/or the liquid outlet pipe so as to adjust the position of the cooling pipe immersed in the molten glass.

In one embodiment, the tube assembly further comprises a liquid inlet connecting tube having one end connected to the liquid inlet tube and the other end bent toward the inside of the kiln pool and connected to the cooling tube, and a liquid outlet connecting tube having one end connected to the cooling tube and the other end bent toward the outside of the kiln pool and connected to the liquid outlet tube.

In one embodiment, the cooling pipe comprises a liquid inlet cooling pipe connected to the liquid inlet connecting pipe, a liquid outlet cooling pipe connected to the liquid outlet connecting pipe, and an arc pipe connecting the liquid inlet cooling pipe and the liquid outlet cooling pipe.

In one embodiment, the distance between the liquid inlet cooling pipe and the bottom of the kiln pool is 10-50mm, and the distance between the liquid inlet connecting pipe and the inner side wall of the kiln pool is 10-50 mm.

In one embodiment, the open end of the liquid inlet pipe and the open end of the liquid outlet pipe are both provided with a thread structure.

In one embodiment, the adjusting assembly comprises a frame, a roller connected to the frame and driving the frame to move, a lifting frame arranged on the frame and connected to the liquid inlet pipe and/or the liquid outlet pipe, and a motor for driving the lifting frame.

In one embodiment, the motor is connected with a frequency converter, and a lifting button is arranged on the frequency converter.

In one embodiment, the crane comprises at least two sets of lifting rods, one end of each lifting rod is connected to the pipe assembly, and the other end of each lifting rod is connected to the frame.

In one embodiment, the molten glass stabilization device further comprises a holding table for holding the tube assembly.

In one embodiment, the molten glass stabilizing device comprises two groups of tube assemblies, and cooling tubes of the two groups of tube assemblies abut against and are arranged oppositely.

The utility model has the advantages that: the cooling tube among the subassembly immerses in the glass liquid and is located the card neck department in kiln pond, because the horizontal convection current of glass liquid in the card neck department in kiln pond can strengthen, back in the cooling tube immerses glass liquid, form between the card neck department in kiln pond and the bottom of the pool in other words and keep off the bank, thereby effectively alleviateed the impact of glass liquid to kiln pond bottom of the pool, and the cooling liquid gets into the glass liquid cooling to corresponding department behind the cooling tube, the immobile layer of glass liquid has been increased, thereby further avoid glass liquid to strike and form the bubble that is difficult for the effluvium to the bottom of the pool, effectively improve the quality of glass production. And through the setting of adjusting part, can adjust suitable position with the cooling tube to satisfy the production demand better, produce the glass of higher quality.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a molten glass stabilizing device provided by an embodiment of the present invention;

FIG. 2 is a schematic view of the production state of molten glass in a furnace tank without using the molten glass stabilizing device proposed in the present application;

FIG. 3 is a schematic view of the production state of molten glass in a furnace tank using the molten glass stabilizing device proposed in the present application;

fig. 4 is a schematic structural diagram of a tube assembly in a molten glass stabilizing device according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an adjusting assembly in a molten glass stabilizing device according to an embodiment of the present invention;

fig. 6 is a schematic diagram of relative positions of two sets of tube assemblies in a molten glass stabilizing device according to an embodiment of the present invention.

Description of the main element symbols:

molten glass stabilizing device-100; a kiln pool-200; a neck-201; molten glass-300; immobile layer-301; feeding and refluxing-302; stream-303; secondary reflux-304; tube assembly-10; a liquid inlet pipe-11; a liquid outlet pipe-12; a cooling pipe-13; a liquid inlet connecting pipe-14; a liquid outlet connecting pipe-15; -111, a thread formation; a liquid inlet cooling pipe-131; a liquid outlet cooling pipe-132; an arced tube-133; adjusting the valence of-20; a frame-21; a roller-22; a lifting frame-23; a motor-24; a primary-secondary quick socket-241; a frequency converter-25; a supporting platform-30; shallow water-40.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Referring to fig. 1-6, a molten glass stabilizing apparatus 100 for cooling molten glass 300 in a furnace tank 200 according to the present application is shown, comprising:

the cooling device comprises a pipe assembly 10, wherein the pipe assembly 10 comprises a liquid inlet pipe 11, a cooling pipe 13 and a liquid outlet pipe 12 which are sequentially communicated along the flowing direction of cooling liquid, the liquid inlet pipe 11 and the liquid outlet pipe 12 are both positioned outside a kiln pool 200, and the cooling pipe 13 is immersed in glass liquid 300 and positioned at a neck 201 of the kiln pool 200; the cooling liquid enters from the liquid inlet pipe 11 and then flows to the cooling pipe 13, the cooling pipe 13 is immersed in the glass liquid 300, the glass liquid 300 at the corresponding position can be cooled, the state of the glass liquid 300 is stable, the cooling liquid flowing through the cooling pipe 13 flows out from the liquid outlet pipe 12, and therefore the cooling liquid in the cooling pipe 13 can be guaranteed to cool the glass liquid 300 at the corresponding position all the time.

And a regulating assembly 20, wherein the regulating assembly 20 is connected to the liquid inlet pipe 11 and/or the liquid outlet pipe 12 and is used for regulating the position of the cooling pipe 13 immersed in the molten glass 300. In the embodiment, in order to ensure the stability of the connection between the adjusting assembly 20 and the tube assembly 10, the adjusting assembly 20 is connected to the liquid inlet tube 11 and the liquid outlet tube 12, and the cooling tube 13 is connected to the liquid inlet tube 11 and the liquid outlet tube 12, the adjusting assembly 20 adjusts the position of the cooling tube 13 in the kiln pool 200 by adjusting the positions of the liquid inlet tube 11 and the liquid outlet tube 12, so that the cooling liquid in the cooling tube 13 can cool and stabilize the glass liquid 300 in the corresponding position as required, and specifically, by adjusting the adjusting assembly 20, the cooling tube 13 can move up and down in the vertical direction and can also move back and forth in the horizontal direction in the glass liquid 300.

In this embodiment, liquid inlet pipe 11, liquid outlet pipe 12, and cooling pipe 13 in pipe assembly 10 all have a certain rigidity, and when adjusting assembly 20 is connected with one of liquid inlet pipe 11 or liquid outlet pipe 12, adjusting assembly 20 can drive cooling pipe 13 to move by adjusting the position of liquid inlet pipe 11 or liquid outlet pipe 12, and simultaneously, the position of cooling pipe 13 immersed in molten glass 300 can be in a stable state when adjusting assembly 20 is not adjusting.

Referring to fig. 2, in the case of not using the molten glass stabilizing apparatus 100 proposed in the present application, a shallow water bag 40 is disposed at a neck 201 of a furnace tank 200, and the shallow water bag 40 can only be immersed in the upper layer of the molten glass 300. The molten glass 300 in the kiln pool 200 can form a feeding backflow 302 in the charging process, and in the production process, the molten glass 300 can also form a forming flow 303 and form a secondary backflow 304 at the neck 201 of the kiln pool 200, so that a molten glass immobile layer 301 on the upper plane of a refractory brick at the bottom of the kiln pool 200 is very little, meanwhile, a calender needs to be frequently replaced due to a super white calendering process, the heat permeability of the molten glass 300 is good, the temperature of the molten glass 300 at the bottom of the kiln pool 200 is high, the secondary backflow 304 below a shallow water bag 40 flows back and passes through the upper plane of the refractory brick at the bottom of the kiln pool 200, the upper plane of the refractory brick at the bottom of the kiln pool 200 is washed, and gas in the washed and eroded refractory brick rises into the molten glass 300, so that bubbles are generated.

In this embodiment, as shown in fig. 3, the cooling pipe 13 in the pipe assembly 10 is immersed in the molten glass 300 and located at the neck 201 of the kiln pool 200, the horizontal convection of the molten glass 300 at the neck 201 of the kiln pool 200 is enhanced, after the cooling pipe 13 is immersed in the molten glass 300, which is equivalent to forming a baffle ridge between the neck 201 and the pool bottom of the kiln pool 200, so as to effectively reduce the impact of the molten glass 300 on the pool bottom of the kiln pool 200, and the molten glass 300 at the corresponding position is cooled after the cooling liquid enters the cooling pipe 13, and the immobile layer 301 of the molten glass 300 is added, thereby further preventing the molten glass 300 from impacting the pool bottom to form bubbles which are not easy to scatter, and effectively improving the quality of glass production. And through the setting of adjusting part 20, can adjust suitable position with cooling tube 13 to satisfy the production demand better, produce higher quality glass.

Referring to fig. 2, as an embodiment of the glass melt stabilizing apparatus 100 of the present application, the tube assembly 10 further includes a liquid inlet connecting tube 14 having one end connected to the liquid inlet tube 11 and the other end bent toward the inside of the furnace tank 200 and connected to the cooling tube 13, and a liquid outlet connecting tube 15 having one end connected to the cooling tube 13 and the other end bent toward the outside of the furnace tank 200 and connected to the liquid outlet tube 12.

In this embodiment, liquid inlet pipe 11 and liquid outlet pipe 12 are located outside kiln pool 200, liquid inlet pipe 11 and cooling tube 13 are connected to liquid inlet connecting pipe 14, and after liquid inlet pipe 11 was connected to one end, the other end is buckled to the inside inboard of kiln pool 200, thereby make inside the entering kiln pool 200 that cooling tube 13 can be smooth, and then in soaking glass liquid 300, liquid outlet connecting pipe 15 connects liquid outlet pipe 12 and cooling tube 13, and after one end is connected with the cooling tube 13 that is located inside kiln pool 200, the other end is buckled to the kiln pool 200 outside, thereby make liquid outlet connecting pipe 15 be located outside kiln pool 200. After entering the liquid inlet pipe 11, the cooling liquid flows through the liquid inlet connecting pipe 14, the cooling pipe 13, the liquid outlet connecting pipe 15 and the liquid outlet pipe 12 in sequence, that is, after entering the pipe assembly 10, the cooling liquid realizes complete circulation from the inlet to the outlet in the pipe assembly 10, thereby continuously cooling the glass liquid 300.

Referring to fig. 2, as an embodiment of the glass liquid stabilizing apparatus 100 of the present application, the cooling pipe 13 includes a liquid inlet cooling pipe 131 connected to the liquid inlet connecting pipe 14, a liquid outlet cooling pipe 132 connected to the liquid outlet connecting pipe 15, and an arc pipe 133 connecting the liquid inlet cooling pipe 131 and the liquid outlet cooling pipe 132.

In this embodiment, the coolant flows through the liquid inlet cooling pipe 131, the arc pipe 133, and the liquid outlet cooling pipe 132 in sequence while flowing through the cooling pipe 13. Through the design of arc pipe 133, cooling tube 13 forms the form of the back of convoluteing of bending, and after feed liquor cooling tube 131 extended to the one side of keeping away from feed liquor pipe 11, arc pipe 133 was connected with it, and then made the extending direction of play liquid cooling tube 132 be connected with arc pipe 133 change, and then made feed liquor pipe 11 and drain pipe 12 can set up in same one side. In this kind of structure, cooling tube 13 wholly forms a section to keeping away from the pipeline that feed liquor pipe 11 and drain pipe 12 one side extended, so, when the card neck 201 structure of kiln pond 200 was faced, this section pipeline just can stretch into card neck 201 below smoothly to the glass liquid 300 of kiln pond 200 card neck 201 department carries out the cooling stability.

It can be understood, in more embodiments, cooling tube 13 can include multiunit arc pipe 133, correspond with each arc pipe 133, the cooling tube still includes the multiunit and connects the straight tube between each arc pipe, each straight tube is parallel with drain pipe and feed liquor pipe, cooling tube 13 after the combination presents the multiple form of buckling of circling round to increased the area of contact of cooling tube and glass liquid 300 in the kiln pond 200, and then better realization is to the cooling and the stability of glass liquid 300, also better the impact of glass liquid 300 to kiln pond 200 bottom of the pool of having blockked.

Referring to fig. 1-2, in the present application, as an embodiment of the glass liquid stabilizing apparatus 100, a liquid inlet cooling pipe 131 and a liquid outlet cooling pipe 132 are stacked from bottom to top, and a liquid inlet pipe 11 and a liquid outlet pipe 12 are stacked from bottom to top.

In this embodiment, because feed liquor cooling tube 131 is upper and lower stack form with play liquid cooling tube 132, and feed liquor cooling tube 131 is located play liquid cooling tube 132 below, then, after the coolant liquid flowed into feed liquor cooling tube 131, can be full of feed liquor cooling tube 131 earlier, flow into again and go out in the liquid cooling tube 132, and feed liquor pipe 11 and drain pipe 12 all are located the top of cooling tube 13, therefore, the coolant liquid is after flowing into cooling tube 13, after being full of cooling tube 13 completely, just can further flow out, the condition of empty pipe has been avoided appearing, further perfect the cooling effect to glass liquid 300.

It is understood that in other embodiments, the inlet liquid cooling pipe 131 and the outlet liquid cooling pipe 132 may be parallel to each other, in which case, the contact area between the whole cooling pipe 13 and the molten glass 300 in the horizontal direction is increased, and the cooling and stabilizing effect on the molten glass 300 at a certain height is better.

Referring to fig. 1, as an embodiment of the glass liquid stabilizing apparatus 100 of the present application, the distance between the liquid inlet cooling pipe 131 and the bottom of the furnace tank 200 is 10-50mm, and the distance between the liquid inlet connecting pipe 14 and the inner side wall of the furnace tank 200 is 10-50 mm.

In this embodiment, specifically, the cooling pipe 13 in the pipe assembly 10 is made of 120 × 80 × 8 cold-drawn flat steel material by welding, the cold-drawn flat steel material is an annealing material, after the liquid inlet cooling pipe 131 and the liquid outlet cooling pipe 132 are stacked, the distance between the liquid inlet cooling pipe 131 and the bottom of the kiln pool 200 is 50mm, the distance between the upper pipe wall of the liquid outlet cooling pipe 132 and the bottom of the kiln pool 200 is 240mm, the height difference between the lower pipe wall of the liquid inlet cooling pipe 131 and the lower pipe wall of the liquid inlet pipe 11 is 1270mm, and the distance between the pipe wall of the liquid inlet connecting pipe 14 close to the side of the kiln pool 200 and the wall of the kiln pool 200 is 30 mm.

It can be understood that, in other embodiments, according to the difference in the size of the kiln pool 200 and the difference in the requirements for stabilizing the molten glass 300, the distance between the liquid inlet cooling pipe 131 and the bottom of the kiln pool 200, the distance between the upper pipe wall of the liquid outlet cooling pipe 132 and the bottom of the kiln pool 200, the height difference between the lower pipe wall of the liquid inlet cooling pipe 131 and the lower pipe wall of the liquid inlet pipe 11, the distance between the pipe wall of the liquid inlet connecting pipe 14 close to the side of the wall of the kiln pool 200 and the wall of the kiln pool 200, and the like can be selected more, and are not described herein again.

Referring to fig. 4, as an embodiment of the glass liquid stabilizing apparatus 100 of the present application, the opening end of the liquid inlet pipe 11 and the opening end of the liquid outlet pipe 12 are both provided with a thread structure 111.

Specifically, in this embodiment, the thread structure 111 that sets up on feed liquor pipe 11 and drain pipe 12 is the external screw thread, and the outside pipeline passes through the external screw thread and directly is connected with feed liquor pipe 11 and drain pipe 12, and connected mode is simple and convenient and stable.

Referring to fig. 1 and 4, as an embodiment of the molten glass stabilizing apparatus 100 of the present application, the adjusting assembly 20 includes a frame 21, a roller 22 connected to the frame 21 and driving the frame 21 to move, a lifting frame 23 disposed on the frame 21 and connected to the tube assembly 10, and a motor 24 for driving the lifting frame 23.

In this embodiment, the roller 22 slides on a predetermined track, so as to drive the carriage 21 and the crane 23 on the carriage 21 to move on the predetermined track, so that the tube assembly 10 connected to the crane 23 moves on the predetermined track, thereby enabling the tube assembly 10 to be immersed into the molten glass 300 at a corresponding position as desired.

Referring to fig. 5, as an embodiment of the molten glass stabilizing device 100 in the present application, the motor 24 is connected to a frequency converter 25, and the frequency converter 25 is provided with a lifting button.

In this embodiment, the tube assembly 10 is connected to the adjusting assembly 20, the adjusting assembly 20 moves on the ground through the roller 22, the motor 24 controls the lifting frame 23 to adjust the height of the tube assembly 10, the motor 24 is provided with the primary-secondary quick connector 241, the primary-secondary quick connector 241 is connected with the frequency converter 25, the frequency converter 25 is connected with a power supply through a high-temperature-resistant power line, the control box of the frequency converter 25 is provided with an ascending button and a descending button, thus the ascending and descending speed of the tube assembly 10 can be controlled randomly as required, the tube assembly descends at a low speed when approaching the plane on the bottom of the kiln pool 200, and the safety in the operation process is ensured.

Referring to fig. 5, as an embodiment of the glass melt stabilizing device 100 of the present application, the crane 23 includes at least two sets of lifting rods, one end of each lifting rod is connected to the tube assembly 10, and the other end of each lifting rod is connected to the frame 21. In this embodiment, at least two sets of lifting rods are connected to the pipe assembly 10, and the two sets of lifting rods move synchronously, so that the pipe assembly 10 can be stably adjusted by the adjusting assembly 20.

Referring to fig. 1, as an embodiment of the molten glass stabilizing apparatus 100 of the present application, the molten glass stabilizing apparatus 100 further includes a support table 30 for supporting the tube assembly 10. Bearing platform 30 is located feed liquor connecting pipe 14 and play liquid connecting pipe 15 below, and after adjusting part 20 drove pipe subassembly 10 and moved to corresponding position, bearing platform 30 corresponds and moves the below of feed liquor pipe 11 and drain pipe 12 and supports with feed liquor pipe 11 and drain pipe 12 and push up to bearing whole pipe subassembly 10, further guarantee the stable operation that carries on of pipe subassembly 10.

Referring to fig. 6, as an embodiment of the molten glass stabilizing apparatus 100 of the present application, the molten glass 300 stabilizing apparatus 100 includes two sets of tube assemblies 10, and ends of the cooling tubes 13 of the two sets of tube assemblies 10 are abutted against and disposed opposite to each other. Specifically, two sets of tube assemblies 10 enter the furnace tank 200 from two sides of the furnace tank 200 respectively and abut against the necks 201 of the furnace tank 200, so that the structural stability and the practicability of the glass melt 300 stabilizing device 100 are further improved.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a glass liquid stabilising arrangement for cool down to the glass liquid in the kiln pond, its characterized in that includes:

the cooling device comprises a pipe assembly, a cooling pipe and a cooling pipe, wherein the pipe assembly comprises a liquid inlet pipe, a cooling pipe and a liquid outlet pipe which are sequentially communicated along the flowing direction of cooling liquid, the liquid inlet pipe and the liquid outlet pipe are both positioned outside a kiln pool, and the cooling pipe is immersed in glass liquid and positioned at a neck of the kiln pool;

and the adjusting assembly is connected to the liquid inlet pipe and/or the liquid outlet pipe so as to adjust the position of the cooling pipe immersed in the molten glass.

2. The molten glass stabilizing device according to claim 1, wherein the tube assembly further comprises a liquid inlet connecting tube having one end connected to the liquid inlet tube and the other end bent toward the inside of the furnace bath and connected to the cooling tube, and a liquid outlet connecting tube having one end connected to the cooling tube and the other end bent toward the outside of the furnace bath and connected to the liquid outlet tube.

3. The glass liquid stabilizing device according to claim 2, wherein the cooling pipe comprises a liquid inlet cooling pipe connected to the liquid inlet connecting pipe, a liquid outlet cooling pipe connected to the liquid outlet connecting pipe, and an arc pipe connecting the liquid inlet cooling pipe and the liquid outlet cooling pipe.

4. The molten glass stabilizing device according to claim 3, wherein the distance between the feed liquid cooling pipe and the bottom of the kiln pool is 10-50mm, and the distance between the feed liquid connecting pipe and the inner side wall of the kiln pool is 10-50 mm.

5. The molten glass stabilizing device of claim 1, wherein the open end of the liquid inlet pipe and the open end of the liquid outlet pipe are both provided with a threaded structure.

6. The molten glass stabilizing device of claim 1, wherein the adjusting assembly comprises a frame, a roller connected to the frame and driving the frame to move, a lifting frame arranged on the frame and connected to the liquid inlet pipe and/or the liquid outlet pipe, and a motor for driving the lifting frame.

7. The molten glass stabilizing device according to claim 6, wherein a frequency converter is connected to the motor, and a lifting button is arranged on the frequency converter.

8. The molten glass stabilizing device of claim 6, wherein the lifting frame comprises at least two sets of lifting rods, one end of the lifting rods is connected to the tube assembly, and the other end of the lifting rods is connected to the frame.

9. The molten glass stabilization device of claim 1, further comprising a support table for supporting the tube assembly.

10. The molten glass stabilizing device according to any one of claims 1 to 9, wherein the molten glass stabilizing device comprises two sets of the tube assemblies, and the cooling tubes of the two sets of the tube assemblies are abutted against and arranged opposite to each other.

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