CN210825930U - Air pipe cooling system for A area of rolled glass annealing kiln - Google Patents

Abstract

The utility model discloses a tuber pipe cooling system in calendering glass annealing kiln A district, include: the cooling device in the A1 area, the cooling device in the A1 area comprises: the device comprises a plurality of first upper cooling air pipes, a plurality of first lower cooling air pipes, an A1 area external main air pipe, a plurality of first upper control valves, a plurality of first lower control valves, a plurality of first upper temperature measuring elements and a plurality of first lower temperature measuring elements; the cooling device in the A2 area, the cooling device in the A2 area comprises: a plurality of second upper cooling air pipes, a plurality of second lower cooling air pipes, an external main air pipe of an A2 area, a plurality of second upper control valves, a plurality of second lower control valves, a plurality of second upper temperature measuring elements and a plurality of second lower temperature measuring elements; fan air feed system, fan air feed system includes: the air supply main pipe, the first fan, the second fan, the first main pipe control valve, the second main pipe control valve and the third main pipe control valve. The utility model discloses strengthen A district cooling effect, reduce the energy consumption, reduce cost.

Description

Air pipe cooling system for A area of rolled glass annealing kiln

Technical Field

The utility model relates to a technical field of glass annealing kiln especially relates to a tuber pipe cooling system in calendering glass annealing kiln A district.

Background

The ultra-white rolled glass industry is an important link in a solar photovoltaic industry system, and provides high-quality high-transmittance cover plate glass for solar cells.

The production tonnage of a common ultra-white rolled glass production line is generally about 125t/d, and the width of a raw plate is generally 2.4 m. In recent years, with the progress of the calendering technology and the demand for energy saving in production, ultra-white rolled glass has a tendency to increase in tonnage. For the production line with the tonnage of 160 t/d-180 t/d or even higher tonnage, the A area of the annealing kiln bears larger cooling load, and the traditional A area air pipe cooling system type has large energy consumption and low cooling efficiency.

Disclosure of Invention

Aiming at the problems of large energy consumption and low cooling efficiency of the traditional annealing kiln A area air pipe cooling system, the air pipe cooling system of the annealing kiln A area of the rolled glass with low energy consumption and high cooling efficiency is provided.

The specific technical scheme is as follows:

a ducted cooling system for a zone a of a rolled glass lehr comprising: a cooling device in zone a1, said cooling device in zone a1 comprising: the cooling air system comprises a plurality of first upper cooling air pipes, a plurality of first lower cooling air pipes and an A1 area external main air pipe, wherein the plurality of first upper cooling air pipes and the plurality of first lower cooling air pipes are communicated with the A1 area external main air pipe after being collected;

a cooling device in zone a2, said cooling device in zone a2 comprising: a plurality of second upper cooling air pipes, a plurality of second lower cooling air pipes and an A2 area external main air pipe, wherein the plurality of second upper cooling air pipes and the plurality of second lower cooling air pipes are communicated with the A2 area external main air pipe after being collected;

a fan air supply system, the fan air supply system comprising: the air supply system comprises an air supply main pipe, a first fan and a second fan, wherein the A1 area external main air pipe and the A2 area external main air pipe are respectively communicated with the air supply main pipe, and two ends of the air supply main pipe are respectively communicated with the first fan and the second fan.

The blast pipe cooling system of the rolled glass annealing kiln in the area a, wherein the cooling device in the area a1 further comprises: the first upper control valves are respectively arranged on the first upper cooling air pipes, and the first lower control valves are respectively arranged on the first lower cooling air pipes.

The blast pipe cooling system of the rolled glass annealing kiln in the area a, wherein the cooling device in the area a1 further comprises: the temperature measuring device comprises a plurality of first upper temperature measuring elements and a plurality of first lower temperature measuring elements, wherein the plurality of first upper temperature measuring elements are respectively arranged on the corresponding plurality of first upper cooling air pipes, and the plurality of first lower temperature measuring elements are respectively arranged on the corresponding plurality of first lower cooling air pipes.

The blast pipe cooling system of the rolled glass annealing kiln in the area a, wherein the cooling device in the area a2 further comprises: the second upper control valves are respectively arranged on the second upper cooling air pipes, and the second lower control valves are respectively arranged on the second lower cooling air pipes.

The blast pipe cooling system of the rolled glass annealing kiln in the area a, wherein the cooling device in the area a2 further comprises: the temperature measuring device comprises a plurality of second upper temperature measuring elements and a plurality of second lower temperature measuring elements, wherein the plurality of second upper temperature measuring elements are respectively arranged on the plurality of corresponding second upper cooling air pipes, and the plurality of second lower temperature measuring elements are respectively arranged on the plurality of corresponding second lower cooling air pipes.

The air pipe cooling system in the A area of the rolled glass annealing kiln is characterized in that the fan air supply system further comprises: first total pipe control valve, second total pipe control valve and third total pipe control valve, first total pipe control valve second total pipe control valve with third total pipe control valve all locates on the air supply house steward, first total pipe control valve is located first fan with between the outside total tuber pipe in A1 district, second total pipe control valve is located the outside total tuber pipe in A1 district with between the outside total tuber pipe in A2 district, third total pipe control valve is located the outside total tuber pipe in A2 district with between the second fan.

In the air duct cooling system for the area a of the rolled glass annealing kiln, the first main pipe control valve, the second main pipe control valve and the third main pipe control valve are all manual valves.

Compared with the prior art, the technical scheme has the positive effects that:

the utility model discloses a A district tuber pipe cooling system divide into A1 district cooling device and A2 district cooling device, has strengthened A district cooling effect, has reduced the energy consumption in A district, and a1 district cooling device and a2 district cooling device share a fan air feed system, the cost is reduced.

Drawings

FIG. 1 is a longitudinal arrangement view of an air duct cooling system in a zone A of a rolled glass annealing furnace according to the present invention;

FIG. 2 is a plan view of the cooling system for the air ducts in the area A of the annealing lehr for rolled glass according to the present invention;

in the drawings: 1. a cooling device in the area A1; 2. a cooling device in the area A2; 3. a fan air supply system; 11. a first upper cooling air duct; 12. a first upper control valve; 13. a first upper temperature measuring element; 14. a first lower cooling air duct; 15. a first lower control valve; 16. a first lower temperature measuring element; 17. a total air pipe outside the A1 area; 21. a second upper cooling air duct; 22. a second upper control valve; 23. a second upper temperature measuring element; 24. a second lower cooling air duct; 25. a second lower control valve; 26. a second lower temperature measuring element; 27. a total air pipe outside the A2 area; 31. a first fan; 32. a second fan; 33. a main air supply pipe; 34. a first main control valve; 35. a second manifold control valve; 36. the third manifold controls the valve.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.

Fig. 1 is the utility model relates to a vertical arrangement of air pipe cooling system in calendering glass annealing kiln A district, fig. 2 is the utility model relates to a plane arrangement of air pipe cooling system in calendering glass annealing kiln A district, as shown in fig. 1 and fig. 2, the air pipe cooling system in calendering glass annealing kiln A district that shows a preferred embodiment includes: cooling device 1 in A1 district, cooling device 2 in A2 district and fan air feed system 3, cooling device 1 in A1 district includes: a plurality of first upper portion cooling tuber pipes 11, a plurality of first lower cooling tuber pipe 14 and an outside total tuber pipe 17 in A1 district, a plurality of first upper portion cooling tuber pipes 11, a plurality of first lower cooling tuber pipes 14 all are linked together with the outside total tuber pipe 17 in A1 district after assembling, and A2 district cooling device 2 includes: a plurality of second upper portion cooling air ducts 21, a plurality of second lower portion cooling air ducts 24 and an outside total tuber pipe 27 in A2 district, a plurality of second upper portion cooling air ducts 21, a plurality of second lower portion cooling air ducts 24 all are linked together with the outside total tuber pipe 27 in A2 district after assembling, and fan air feed system 3 includes: the air supply main pipe 33, the first fan 31 and the second fan 32, the external main air pipe 17 in the area A1 and the external main air pipe 27 in the area A2 are respectively communicated with the air supply main pipe 33, and two ends of the air supply main pipe 33 are respectively communicated with the first fan 31 and the second fan 32. Preferably, the a 1-block cooling device 1 and the a 2-block cooling device 2 are both installed on the floor 4 of the plant, and as shown in fig. 1, the direction of the arrow located outside the a 1-block cooling device 1 and the a 2-block cooling device 2 is the direction in which the glass advances.

Preferably, the first upper cooling air ducts 11 and the first lower cooling air ducts 14 are collected and respectively communicated with the external main air duct 17 in the area a1, and the second upper cooling air ducts 21 and the second lower cooling air ducts 24 are collected and respectively communicated with the external main air duct 27 in the area a 2.

Further, as a preferred embodiment, the fan air supply system 3 further includes: the first main pipe control valve 34, the second main pipe control valve 35 and the third main pipe control valve 36 are arranged on the air supply main pipe 33, the first main pipe control valve 34, the second main pipe control valve 35 and the third main pipe control valve 36 are arranged on the first fan 31 and the external main air pipe 17 in the A1 area, the second main pipe control valve 35 is arranged between the external main air pipe 17 in the A1 area and the external main air pipe 27 in the A2 area, and the third main pipe control valve 26 is arranged between the external main air pipe 27 in the A2 area and the second fan 32.

The above is merely an example of the preferred embodiments of the present invention, and the embodiments and the protection scope of the present invention are not limited thereby.

The utility model discloses still have following embodiment on above-mentioned basis:

in a further embodiment of the present invention, please continue to refer to fig. 1 and fig. 2, the cooling device 1 in the a1 area further includes: a plurality of first upper control valves 12 and a plurality of first lower control valves 15, a plurality of first upper control valves 12 are respectively arranged on a plurality of first upper cooling air pipes 11, and a plurality of first lower control valves 15 are respectively arranged on a plurality of first lower cooling air pipes 14.

In a further embodiment of the present invention, the cooling device 1 in the a1 area further comprises: the temperature measuring device comprises a plurality of first upper temperature measuring elements 13 and a plurality of first lower temperature measuring elements 16, wherein the plurality of first upper temperature measuring elements 13 are respectively arranged on a plurality of corresponding first upper cooling air pipes 11, and the plurality of first lower temperature measuring elements 16 are respectively arranged on a plurality of corresponding first lower cooling air pipes 14.

In a further embodiment of the present invention, the cooling device 2 in the a2 area further comprises: a plurality of second upper control valves 22 and a plurality of second lower control valves 25, the plurality of second upper control valves 22 are respectively disposed on the plurality of second upper cooling air pipes 21, and the plurality of second lower control valves 25 are respectively disposed on the plurality of second lower cooling air pipes 24.

In a further embodiment of the present invention, the cooling device 2 in the a2 area further comprises: a plurality of second upper temperature measuring elements 23 and a plurality of second lower temperature measuring elements 26, wherein the plurality of second upper temperature measuring elements 23 are respectively arranged on the plurality of corresponding second upper cooling air pipes 21, and the plurality of second lower temperature measuring elements 26 are respectively arranged on the plurality of corresponding second lower cooling air pipes 24.

The utility model discloses a in the further embodiment, first total pipe control valve 34, second total pipe control valve 35 and third total pipe control valve 36 are manual valve.

The utility model discloses a A district tuber pipe cooling system divide into A1 district cooling device 1 and A2 district cooling device 2, has strengthened A district cooling effect, has reduced the energy consumption in A district, and a1 district cooling device 1 and a2 district cooling device 2 share a fan air feed system 3, the cost is reduced.

The above description is only an example of the preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and those skilled in the art should be able to realize the equivalent alternatives and obvious variations of the present invention.

Claims (7)

1. The utility model provides a tuber pipe cooling system in calendering glass annealing kiln A district which characterized in that includes:

a cooling device in zone a1, said cooling device in zone a1 comprising: the cooling air system comprises a plurality of first upper cooling air pipes, a plurality of first lower cooling air pipes and an A1 area external main air pipe, wherein the plurality of first upper cooling air pipes and the plurality of first lower cooling air pipes are communicated with the A1 area external main air pipe after being collected;

a cooling device in zone a2, said cooling device in zone a2 comprising: a plurality of second upper cooling air pipes, a plurality of second lower cooling air pipes and an A2 area external main air pipe, wherein the plurality of second upper cooling air pipes and the plurality of second lower cooling air pipes are communicated with the A2 area external main air pipe after being collected;

a fan air supply system, the fan air supply system comprising: the air supply system comprises an air supply main pipe, a first fan and a second fan, wherein the A1 area external main air pipe and the A2 area external main air pipe are respectively communicated with the air supply main pipe, and two ends of the air supply main pipe are respectively communicated with the first fan and the second fan.

2. The system for cooling ducts in zone a of a drawn glass annealing lehr as claimed in claim 1, wherein said cooling means in zone a1 further comprises: the first upper control valves are respectively arranged on the first upper cooling air pipes, and the first lower control valves are respectively arranged on the first lower cooling air pipes.

3. The system for cooling ducts in zone a of a drawn glass annealing lehr as claimed in claim 1, wherein said cooling means in zone a1 further comprises: the temperature measuring device comprises a plurality of first upper temperature measuring elements and a plurality of first lower temperature measuring elements, wherein the plurality of first upper temperature measuring elements are respectively arranged on the corresponding plurality of first upper cooling air pipes, and the plurality of first lower temperature measuring elements are respectively arranged on the corresponding plurality of first lower cooling air pipes.

4. The system for cooling ducts in zone a of a drawn glass annealing lehr as claimed in claim 1, wherein said cooling means in zone a2 further comprises: the second upper control valves are respectively arranged on the second upper cooling air pipes, and the second lower control valves are respectively arranged on the second lower cooling air pipes.

5. The system for cooling ducts in zone a of a drawn glass annealing lehr as claimed in claim 1, wherein said cooling means in zone a2 further comprises: the temperature measuring device comprises a plurality of second upper temperature measuring elements and a plurality of second lower temperature measuring elements, wherein the plurality of second upper temperature measuring elements are respectively arranged on the plurality of corresponding second upper cooling air pipes, and the plurality of second lower temperature measuring elements are respectively arranged on the plurality of corresponding second lower cooling air pipes.

6. The rolled glass annealing lehr zone a duct cooling system of claim 1, wherein said fan air supply system further comprises: first total pipe control valve, second total pipe control valve and third total pipe control valve, first total pipe control valve second total pipe control valve with third total pipe control valve all locates on the air supply house steward, first total pipe control valve is located first fan with between the outside total tuber pipe in A1 district, second total pipe control valve is located the outside total tuber pipe in A1 district with between the outside total tuber pipe in A2 district, third total pipe control valve is located the outside total tuber pipe in A2 district with between the second fan.

7. The vent line cooling system of zone a of a drawn glass annealing lehr of claim 6, wherein the first manifold control valve, the second manifold control valve, and the third manifold control valve are all manual valves.

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