CN218179677U - Cooling system of forming equipment for manufacturing flexible glass - Google Patents

Abstract

The utility model provides a former cooling system for making flexible glass, muffle furnace steel constructs and former steel constructs all include the quarter bend that a plurality of levels set up, and the cooling tuber pipe inserts in the quarter bend, builds cooling system based on the muffle furnace steel constructs among the prior art and former steel constructs, can reduce the transformation cost of flexible glass production line; because the relative position of cooling air has a downward trend, this application adopts the cooling air to divide the ware to lead and can control the cooling air entry that gets into muffle furnace steel structure and forming furnace steel structure, and then improve the cooling effect, the furnace temperature according to muffle furnace and forming furnace that the precision control valve can be pertinence is controlled the cooling air volume, and then reduce the waste of cooling air, guarantee the stability of muffle furnace steel structure and forming furnace steel structure temperature, can not produce fracture scheduling problem because of the temperature span is great, this application simple structure, high durability and convenient operation, it is with low costs to reform transform, it is effectual to cool down.

Description

Cooling system of forming equipment for manufacturing flexible glass

Technical Field

The utility model belongs to the technical field of flexible glass makes, concretely relates to former cooling system for making flexible glass.

Background

Make flexible glass's former cooling system be the important equipment of flexible glass hot junction production line for cooling down the muffle furnace steel structure, the forming furnace steel constructs the body, reduces the muffle furnace steel structure, and forming furnace steel constructs the body and warp, guarantees that the installation accuracy of other spare parts of installation keeps in the equipment body, and as muffle furnace steel structure, forming furnace steel structure cooling device, belong to the key equipment of muffle furnace.

In flexible glass production process, the hot junction production is for lasting incessant formula production, and the muffle furnace steel constructs in process of production, forming furnace steel constructs cooling system, and cooling method and cold position design are unreasonable, and unfavorable equipment body is stable, influences the muffle furnace, and other annex use accuracy of forming furnace lead to can not accurate operating means in flexible glass production process to influence flexible glass production yields.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the prior art, the utility model provides a former cooling system for making flexible glass to reach the mesh that protection muffle furnace steel constructs and former steel constructs indeformable, and then realize the production precision of this internal other equipment accessories of equipment.

The utility model discloses a realize through following technical scheme:

a cooling system of forming equipment for manufacturing flexible glass is characterized by comprising a muffle furnace steel structure, a forming furnace steel structure and a cooling system;

the muffle furnace steel structure and the forming furnace steel structure both comprise a plurality of horizontally arranged rectangular pipes;

the cooling system comprises an air supply device, a cooling air pipe and a plurality of cooling air sub-guides, wherein an air outlet of the air supply device is connected with the cooling air sub-guides through the cooling air pipe, and a precise control valve is arranged at the joint of the air supply device and the cooling air pipe;

the cooling air distributor comprises an air inlet and four air outlets which are arranged in a rectangular mode, and the air inlet of the cooling air distributor is located at the position, vertically downward, of the gravity center of the air outlets;

and the air inlet end of the rectangular pipe is connected with the air outlet of the cooling air distributor.

Furthermore, the cooling air pipes are multiple and are independently connected with the air supply device.

Further, muffle furnace steel constructs and forming furnace steel constructs all includes the quarter bend that four levels set up, just the quarter bend is the rectangle and distributes in the four corners lateral wall that muffle furnace steel constructs and forming furnace steel constructs.

Further, cooling system still includes gas collection device and hot-blast main, the inlet end of gas collection device is connected to hot-blast main one end, and the other end inserts the rectangular pipe air outlet that muffle furnace steel constructs and forming furnace steel constructs.

Further, the rectangular pipe air outlet end of the muffle furnace steel structure and the forming furnace steel structure is provided with a hot air distributor, and an air outlet of the hot air distributor is connected with a hot air pipe.

Furthermore, the cooling air pipe and the hot air pipe are both PVC silica gel hoses.

Furthermore, the vertical downward distance between the cooling air guiding device positioned on one side of the air inlet end of the rectangular tube of the muffle steel structure and the top of the muffle steel structure is 350-450mm.

Furthermore, the cooling air guide device positioned on one side of the air inlet end of the rectangular pipe of the forming furnace steel structure is 150-240mm away from the top of the forming furnace steel structure vertically downwards, and 180-280mm away from the bottom of the forming furnace steel structure vertically upwards.

Furthermore, the air outlet of the air supply device is also provided with a pipe clamp for sealing and connecting with a cooling air pipe.

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

the utility model provides a former cooling system for making flexible glass, muffle furnace steel constructs and the former steel constructs all including the quarter bend that a plurality of levels set up, and the cooling tuber pipe inserts in the quarter bend, builds cooling system based on the muffle furnace steel constructs and the former steel constructs among the prior art, can reduce the transformation cost of flexible glass production line, can reach the cooling effect simultaneously; because the relative position of the cooling air has a downward trend, the cooling air distributor can control the cooling air inlets entering the muffle furnace steel structure and the forming furnace steel structure, so that the cooling effect is improved, and meanwhile, the cooling air distributor can reduce the number of cooling air pipes, so that the complexity and the cooling cost of a flexible glass production line can be reduced; the accurate control valve can be pertinence according to the furnace temperature of muffle furnace and forming furnace to control the cooling air volume, and then reduces the waste of cooling air, guarantees the stability of muffle furnace steel structure and forming furnace steel structure temperature, can not be because of the great fracture scheduling problem that produces of temperature span, this application simple structure, convenient operation reforms transform with low costsly, and the cooling is effectual.

Further, cooling system still includes the gas collection device, the quarter bend air-out end that muffle furnace steel constructs and the shaping furnace steel constructs is provided with hot-blast branch and leads the ware, hot-blast main is connected to the air outlet that hot-blast branch led the ware, and the gas collection device is gone into to the hot-blast main end of giving vent to anger, and then prevents that high-temperature gas from directly discharging into in the air, burns site constructor.

Drawings

Fig. 1 is a schematic structural diagram of a cooling system of a forming apparatus for manufacturing flexible glass according to an embodiment of the present invention.

In the figure: the muffle furnace steel structure 7, the forming furnace steel structure 8, the air supply device 1, the cooling air pipe 4, the cooling air guide 5, the precise control valve 2, the air collecting device 9, the hot-blast pipe 90, the hot-blast air guide 91 and the pipe clamp 3.

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.

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, article, or apparatus.

The utility model provides a cooling system of forming equipment for manufacturing flexible glass, which comprises a muffle furnace steel structure 7, a forming furnace steel structure 8 and a cooling system, as shown in figure 1;

the muffle furnace steel structure 7 and the forming furnace steel structure 8 both comprise a plurality of horizontally arranged rectangular pipes;

the cooling system comprises an air supply device 1, a cooling air pipe 4 and a plurality of cooling air branch guides 5, wherein an air outlet of the air supply device 1 is connected with the cooling air branch guides 5 through the cooling air pipe 4, and a precise control valve 2 is arranged at the joint of the air supply device 1 and the cooling air pipe 4;

specifically, the precise control valve 2 can control the cooling air volume according to the furnace temperature of the muffle furnace and the forming furnace in a targeted manner, wherein the temperature in the muffle furnace and the forming furnace is monitored by the temperature detection devices arranged in the muffle furnace and the forming furnace in real time, technicians in the field can obtain the temperature change in the furnace in real time, the muffle furnace steel structure 7 and the forming furnace steel structure 8 are directly connected with the furnace body, the temperature of the muffle furnace and the forming furnace steel structure is changed along with the temperature in the furnace fast, the muffle furnace steel structure 7 and the forming furnace steel structure 8 are generally made of metal materials, if the cooling air volume is not adjusted according to the temperature, the temperature change span of the muffle furnace steel structure 7 and the forming furnace steel structure 8 is large, the generated cracks are even broken, meanwhile, if the cracks are more, the production and shaping precision of flexible glass in the furnace can be influenced, the production yield of the glass is seriously influenced, and further the cooling treatment needs to be carried out according to the furnace temperature, and the stability of the structure in the cooling process of the muffle furnace steel structure and the forming furnace steel structure is ensured.

The cooling air distributor 5 comprises an air inlet and four air outlets which are arranged in a rectangular shape, and the air inlet of the cooling air distributor 5 is positioned at the position where the gravity centers of the air outlets are vertically downward;

and the air inlet end of the rectangular pipe is connected with the air outlet of the cooling air distributor 5.

Preferably, cooling air pipe 4 is a plurality of, and is connected with air feeder 1 alone, because muffle furnace and forming furnace are different to flexible glass's heating temperature, and then can be different to the cooling air that two stoves let in, and then can improve the cooling accuracy.

Preferably, the muffle furnace steel structure 7 and the forming furnace steel structure 8 both comprise four rectangular pipes which are horizontally arranged, and the rectangular pipes are distributed on the four corner side walls of the muffle furnace steel structure 7 and the forming furnace steel structure 8 in a rectangular shape; specifically, steel plates are welded on adjacent rectangular pipe fittings to form supporting and positioning effects on a muffle furnace and a forming furnace, so that the stability and the production precision of the heating and shaping process of the flexible glass in the furnace are ensured;

preferably, the cooling system further comprises a gas collecting device 9 and a hot air pipe 90, one end of the hot air pipe 90 is connected with the gas inlet end of the gas collecting device 9, and the other end of the hot air pipe is connected with a rectangular pipe air outlet of the muffle furnace steel structure 7 and the forming furnace steel structure 8.

Further, the rectangular pipe air-out end of the muffle steel structure 7 and the forming furnace steel structure 8 is provided with a hot air distributor 91, and the air outlet of the hot air distributor 91 is connected with the hot air pipe 90.

Specifically, cooling air duct 4 and hot-blast main 90 all adopt PVC silica gel hose, and it tolerates the temperature interval big, can guarantee that chemical property is stable at low temperature and high temperature, and simultaneously, the material is soft, can use on the production line of complicacy.

Preferably, the vertical downward distance between the cooling air guiding device 5 positioned on one side of the air inlet end of the rectangular pipe of the muffle steel structure 7 and the top of the muffle steel structure 7 is 350-450mm;

further, the distance between the cooling air distributor 5 positioned on one side of the air inlet end of the rectangular pipe of the forming furnace steel structure 8 and the top of the forming furnace steel structure 8 in the vertical downward direction is 150-240mm, and the distance between the cooling air distributor and the bottom of the forming furnace steel structure 8 in the vertical upward direction is 180-280mm; this is because the relative position of cooling air has a downward trend, and this application adopts cooling air to divide leading ware 5 can control the cooling air entry that gets into muffle furnace steel structure 7 and forming furnace steel structure 8, and then improves the cooling effect, and cooling air divides leading ware 5 can reduce the quantity of cooling tuber pipe 4 simultaneously, and then can reduce the complexity and the cooling cost of flexible glass production line.

Preferably, the air outlet of the air supply device 1 is further provided with a pipe clamp 3 for sealing and connecting a cooling air pipe 4 to prevent the cooling air from overflowing.

The utility model provides a former cooling system for making flexible glass when using, including following step:

according to the temperature in the muffle furnace and the forming furnace, the cooling air quantity entering the cooling air pipe 4 is controlled by the precise control valve 2;

if the temperature in the muffle furnace and the forming furnace is not more than 300 ℃, the flow of the cooling air introduced into the cooling air pipe 4 is 0-0.5m ³ /h；

If the temperature in the muffle furnace and the forming furnace is 300-600 ℃, the flow of the cooling air introduced into the cooling air pipe 4 is 0.5-1.5m ³ /h；

If the temperature in the muffle furnace and the forming furnace is 600-1000 ℃, the flow of the cooling air introduced into the cooling air pipe 4 is 1.5-3m ³ /h。

Specifically, air feeder 1 divides the director 5 with the cooling air of cooling air through cooling air duct 4 row in the cooling air, because cooling air divides director 5 and quarter bend rigid coupling, therefore its inside temperature is slightly higher relatively, therefore the colder part of its inside air can let in the lower quarter bend of nearer vertical position, the cold air of higher temperature relatively can get into in the higher quarter bend of vertical position, and the lower quarter bend of vertical position mainly plays most holding power, therefore need more cold air to maintain steady, after the cooling air is the endotherm in the quarter bend, arrange to gas collector 9 through hot-blast branch director 91 and hot-blast main 90, accomplish the cooling to muffle furnace steel structure 7 and forming furnace steel structure 8.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (9)

1. A cooling system of forming equipment for manufacturing flexible glass is characterized by comprising a muffle furnace steel structure (7), a forming furnace steel structure (8) and a cooling system;

the muffle furnace steel structure (7) and the forming furnace steel structure (8) both comprise a plurality of horizontally arranged rectangular pipes;

the cooling system comprises an air supply device (1), a cooling air pipe (4) and a plurality of cooling air sub-guides (5), wherein an air outlet of the air supply device (1) is connected with the cooling air sub-guides (5) through the cooling air pipe (4), and a precise control valve (2) is arranged at the joint of the air supply device (1) and the cooling air pipe (4);

the cooling air distributor (5) comprises an air inlet and four air outlets which are arranged in a rectangular mode, and the air inlet of the cooling air distributor (5) is located at the position where the gravity centers of the air outlets are vertically downward;

and the air inlet end of the rectangular pipe is connected with the air outlet of the cooling air distributor (5).

2. The cooling system of a forming apparatus for manufacturing flexible glass according to claim 1, wherein the cooling air duct (4) is plural and is individually connected to the air supply device (1).

3. The forming equipment cooling system for manufacturing flexible glass, according to claim 1, characterized in that the muffle steel structure (7) and the forming furnace steel structure (8) each comprise four horizontally arranged rectangular pipes which are distributed in a rectangular shape on four corner side walls of the muffle steel structure (7) and the forming furnace steel structure (8).

4. The forming equipment cooling system for manufacturing flexible glass according to claim 1, characterized in that the cooling system further comprises a gas collecting device (9) and a hot air pipe (90), one end of the hot air pipe (90) is connected with the gas inlet end of the gas collecting device (9), and the other end of the hot air pipe is connected with the rectangular pipe air outlets of the muffle furnace steel structure (7) and the forming furnace steel structure (8).

5. The forming equipment cooling system for manufacturing the flexible glass according to claim 4, characterized in that the rectangular pipe air outlet ends of the muffle furnace steel structure (7) and the forming furnace steel structure (8) are provided with a hot air distributor (91), and the air outlet of the hot air distributor (91) is connected with a hot air pipe (90).

6. The cooling system of the forming equipment for manufacturing the flexible glass, according to claim 4, is characterized in that the cooling air pipe (4) and the hot air pipe (90) are both made of PVC silicone hoses.

7. The cooling system for forming equipment used for manufacturing flexible glass according to claim 1, wherein the cooling air distributor (5) located at the side of the air intake end of the rectangular tube of the muffle steel structure (7) is vertically spaced from the top of the muffle steel structure (7) by 350-450mm.

8. The forming apparatus cooling system for manufacturing flexible glass according to claim 1, wherein the cooling air distributor (5) located at the side of the rectangular duct air intake end of the forming furnace steel structure (8) is vertically spaced downward from the top of the forming furnace steel structure (8) by 150 to 240mm and vertically spaced upward from the bottom of the forming furnace steel structure (8) by 180 to 280mm.

9. The cooling system for a forming apparatus used for manufacturing flexible glass according to claim 1, characterized in that the air outlet of the air supply device (1) is further provided with a pipe clamp (3) for sealing and connecting the cooling air pipe (4).

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