CN219098995U - Simple device for reducing surface temperature of rolled ultra-white glass - Google Patents

Abstract

The utility model relates to the technical field of glass production and manufacturing, in particular to a simple device for reducing the surface temperature of calendaring ultrawhite glass, which comprises a conveying roller group for conveying the glass plate, a water outlet pipe, a water absorbing assembly, a water storage tank and a high-pressure air blowing pipe, wherein the water outlet pipe is arranged above the conveying roller group in a supporting mode and drops water drops downwards towards the glass plate, the water absorbing assembly is arranged between the water outlet pipe and the high-pressure air blowing pipe, the water absorbing assembly comprises water absorbing cloth and a driving roller group, the water storage tank is arranged below the driving roller group, the driving roller group is used for driving the water absorbing cloth to rotate around the driving roller group, the lower end of the water absorbing cloth can contact with the glass plate to absorb water, and the driving roller group can extrude the water absorbing cloth to be extruded into the water storage tank, so that the surface temperature of the glass plate is reduced, and the recycling of water resources is realized.

Description

Simple device for reducing surface temperature of rolled ultra-white glass

Technical Field

The utility model relates to the technical field of glass production and manufacturing, in particular to a simple device for reducing the surface temperature of rolled ultra-white glass.

Background

The ultra-white rolled glass component can absorb the radiant heat of solar energy to the maximum extent and greatly improve the photoelectric conversion efficiency of the solar cell. In the production of the ultra-white rolled glass, the high temperature melting is carried out, the annealing is carried out, the temperature is reduced, and the cold end area is reached by the temperature reduction and the outlet area of the annealing kiln. The existing glass plate conveying process is cooled by natural cooling or air cooling, but the temperature is not low enough to reach the working temperature of a cold end area in time, the surface temperature of the glass at the cold end still keeps a higher temperature state, and the temperature at a cutting area is relatively high, so that certain influence can be caused during cutting.

There is a need for an improved quality ultra-white rolled glass by using an increased number of simple equipment to achieve physical cooling and improved cutting quality.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides a simple device for reducing the surface temperature of rolled ultra-white glass.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the utility model provides a reduce simple and easy device of calendering ultrawhite glass surface temperature, includes the conveying roller group of carrying the glass board, still includes outlet pipe, water absorption subassembly, catch basin, high-pressure air blast pipe, the water outlet pipe is set up and is carried roller group top and fall the water droplet downwards towards the glass board, water absorption subassembly is located between outlet pipe and the high-pressure air blast pipe, water absorption subassembly includes water absorption cloth, drive roller group, the catch basin is located drive roller group below, drive roller group is used for driving water absorption cloth and encircles the drive roller group and rotate the setting, and water absorption cloth lower extreme can contact absorption moisture with the glass board, but drive roller group extrusion water absorption cloth upper end makes water absorption cloth by the extrusion moisture get into in the catch basin.

Further, the driving roller group comprises a driving roller, a squeeze roller, an auxiliary roller and a carrier roller, wherein the driving roller and the squeeze roller are arranged up and down, a gap is arranged between the driving roller and the squeeze roller, the water absorption cloth is arranged around the driving roller and the auxiliary roller, the carrier roller lifts the water absorption cloth upwards, and the water absorption cloth passes through the gap between the driving roller and the squeeze roller.

Further, the auxiliary roller and the driving roller are arranged at intervals and are positioned on the same horizontal plane, and the carrier roller and the extrusion roller are arranged at intervals and are positioned on the same horizontal plane.

Further, the water storage groove is arranged below the squeeze roller.

Further, the device also comprises a motor, and the motor is in driving connection with the driving roller.

Further, the water outlet pipe is provided with a plurality of water outlet nozzles which are arranged on the water outlet pipe at intervals and downwards.

Further, still include the backup pad, the backup pad is equipped with two, two the backup pad is fixed to be located the conveying roller group both sides, outlet pipe, catch basin, subassembly, the high-pressure air blast pipe of absorbing water erect respectively in further, still include water tank, water pump, the backup pad outside is located with the water pump to the water tank, water pump one end and outlet pipe connection, the other end is connected with the water tank.

Further, the water return pipe and the filter are arranged on the outer side of the supporting plate, and the water return pipe is arranged at the lower end of the water storage tank, penetrates through the supporting plate, is connected with the filter and is connected into the water tank.

Further, the high-pressure fan is arranged on the outer side of the supporting plate and connected with a high-pressure air blowing pipe, and a plurality of air blowing heads arranged at intervals are arranged on the high-pressure air blowing pipe.

As can be seen from the above description of the present utility model, compared with the prior art, the simple device for reducing the surface temperature of rolled ultra-white glass provided by the present utility model has the following advantages:

the water outlet pipe is arranged to drop water downwards from the glass plate in a dripping mode, so that the purpose of cooling the glass plate is achieved;

the water absorption assembly is arranged to wipe and absorb the dripping water of the front water outlet pipe through the water absorption cloth, and the water of the water absorption cloth is extruded into the water storage tank through the extrusion of the driving roller and the extrusion roller to the water absorption cloth, so that the water circulation effect is achieved, and the water resource is saved;

the high-pressure air blowing pipe is arranged for blowing the glass plate to be dried by high-pressure air blowing and cooling the glass plate for the second time to a certain extent, so that the surface temperature of the glass plate reaches the working temperature requirement of subsequent equipment by being matched with the water outlet pipe.

Drawings

FIG. 1 is a schematic diagram of a simple apparatus for reducing the surface temperature of rolled ultra-white glass according to the present utility model.

FIG. 2 is a schematic cross-sectional view of the present utility model.

The correspondence identified in the figure is as follows: 1. a conveying roller set; 11. a support plate; 2. a water outlet pipe; 21. a water outlet nozzle; 22. a water tank; 23. a water pump; 3. a water absorbing component; 31. a water-absorbing cloth; 32. a drive roller group; 321. a drive roll; 322. a squeeze roll; 323. an auxiliary roller; 324. a carrier roller; 325. a motor; 4. a water storage tank; 41. a water return pipe; 42. a filter; 5. a high pressure blowpipe; 51. a blow head; 52. a high-pressure fan.

Detailed Description

The utility model is further described below by means of specific embodiments.

Referring to fig. 1 to 2, a simple device for reducing the surface temperature of rolled ultra-white glass comprises a conveying roller set 1, a water outlet pipe 2, a water absorbing assembly 3, a water storage tank 4 and a high-pressure air blowing pipe 5.

The two sides of the conveying roller set 1 are respectively and fixedly provided with a supporting plate 11, and the water outlet pipe 2, the water storage tank 4, the water absorbing component 3 and the high-pressure air blowing pipe 5 are respectively erected between the two supporting plates 11. The outlet pipe 2 erects in conveying roller group 1 top and downwardly directed glass board water droplet, be equipped with a plurality of water outlet nozzles 21 on the outlet pipe 2, water outlet nozzle 21 interval arrangement is located on the outlet pipe 2 and is set up down, has set up water tank 22, water pump 23, the backup pad 11 outside is located with water pump 23 to water tank 22, water pump 23 one end is connected with outlet pipe 2, and the other end is connected with water tank 22, carries in the water pump 23 extraction water tank 22 towards outlet pipe 2 and accomplishes the drip work through water outlet nozzle 21 to reach the cooling to glass board surface temperature.

The water absorbing component 3 is arranged between the water outlet pipe 2 and the high-pressure air blowing pipe 5, the water absorbing component 3 comprises a water absorbing cloth 31 and a driving roller group 32, the water storage tank 4 is arranged below the driving roller group 32, the driving roller group 32 is used for driving the water absorbing cloth 31 to rotate around the driving roller group 32, the lower end of the water absorbing cloth 31 can be contacted with a glass plate to absorb water, and the driving roller group 32 can extrude the upper end of the water absorbing cloth 31 to enable the water absorbing cloth 31 to be extruded out of the water into the water storage tank 4. The driving roller set 32 comprises a driving roller 321, a squeeze roller 322, an auxiliary roller 323 and a carrier roller 324, wherein the driving roller 321 and the squeeze roller 322 are arranged up and down, a gap is arranged between the driving roller 321 and the squeeze roller 322, the water absorbing cloth 31 is arranged around the driving roller 321 and the auxiliary roller 323, the carrier roller 324 lifts the water absorbing cloth 31 upwards, and the water absorbing cloth 31 passes through the gap between the driving roller 321 and the squeeze roller 322 to be arranged; the auxiliary roller 323 is spaced from the driving roller 321 and is on the same horizontal plane, and the carrier roller 324 is spaced from the squeeze roller 322 and is on the same horizontal plane. The water absorbing cloth 31 is arranged around the driving roller 321 and the auxiliary roller 323 to form a glass plate which can be contacted with the lower part of the water absorbing cloth 31, and then the rotation of the driving roller 321 is matched with the extrusion roller 322 to form the circumferential rotation of the water absorbing cloth 31 and extrude the water absorbing cloth 31, so that the water in the water absorbing cloth 31 is extruded into the water storage tank 4.

The water storage tank 4 is arranged below the squeeze roller 322, a water return pipe 41 and a filter 42 are further arranged, the filter 42 is arranged outside the supporting plate 11, and the water return pipe 41 is arranged at the lower end of the water storage tank 4, penetrates through the supporting plate 11, is connected with the filter 42 and is connected into the water tank 22. The water extruded by the water absorbing cloth 31 flows back to the water tank 22 through the filter 42 for the water outlet pipe 2 to be continuously used, thereby realizing water recycling and saving water resources.

The high-pressure air blowing pipe 5 is arranged at the rear side of the water absorbing component 3 and is provided with a high-pressure fan 52, the high-pressure fan 52 is arranged at the outer side of the supporting plate 11 and is connected with the high-pressure air blowing pipe 5, and the high-pressure air blowing pipe 5 is provided with a plurality of air blowing heads 51 which are arranged at intervals; the glass plate which is subjected to water dripping cooling and wiping by the water absorbing cloth 31 is subjected to high-pressure air blowing through the plurality of air blowing heads 51, and the glass plate is further dried and subjected to secondary cooling, so that the surface temperature of the glass plate reaches the working temperature requirement of the next working procedure, and the produced ultrawhite rolled glass is better in quality and longer in service life.

A motor 325, said motor 325 being in driving connection with the drive roll 321.

The simple device for reducing the surface temperature of the rolled ultra-white glass has the following working principle:

the glass plate is conveyed forwards along the conveying roller group 1, and the water pump 23 is started to enable the water blowing pipe to drop water downwards to the surface of the glass plate and cool the surface of the glass plate;

the glass sheet is continuously conveyed. The water absorption cloth 31 wipes the water drops on the glass plate, and the water absorbed by the water absorption cloth 31 is extruded into the water storage tank 4 through the cooperation of the driving roller 321 and the extrusion roller 322;

the glass plate is continuously conveyed, the high-pressure air blowing pipe 5 blows air towards the surface of the glass plate at high pressure, residual moisture on the surface of the glass plate is dried, and the surface of the glass plate is cooled for the second time, so that the glass plate meets the working temperature requirement of the next working procedure.

The foregoing is merely one specific embodiment of the present utility model, but the design concept of the present utility model is not limited thereto, and any insubstantial modification of the present utility model by using the concept shall belong to the behavior of infringement of the protection scope of the present utility model.

Claims (10)

1. The utility model provides a reduce simple and easy device of calendering ultrawhite glass surface temperature, includes the conveying roller group who carries the glass board, its characterized in that: still include outlet pipe, the subassembly that absorbs water, catch basin, high-pressure air blast pipe, the outlet pipe is set up and is located the conveying roller group top and drip the water droplet downwards towards the glass board, the subassembly that absorbs water is located between outlet pipe and the high-pressure air blast pipe, the subassembly that absorbs water includes the cloth that absorbs water, drive roller group, the catch basin is located drive roller group below, drive roller group is used for driving the cloth that absorbs water and encircles drive roller group rotation setting, and absorbs water cloth lower extreme and glass board contact absorption moisture, drive roller group can extrude cloth upper end that absorbs water and make the cloth that absorbs water be extruded moisture get into in the catch basin.

2. A simple device for reducing the surface temperature of rolled ultra-white glass according to claim 1, wherein: the driving roller group comprises a driving roller, a squeeze roller, an auxiliary roller and a carrier roller, wherein the driving roller and the squeeze roller are arranged up and down, a gap is arranged between the driving roller and the squeeze roller, the water absorbing cloth is arranged around the driving roller and the auxiliary roller, the carrier roller lifts the water absorbing cloth upwards, and the water absorbing cloth passes through the gap between the driving roller and the squeeze roller.

3. A simple device for reducing the surface temperature of rolled ultra-white glass according to claim 2, wherein: the auxiliary roller and the driving roller are arranged at intervals and are positioned on the same horizontal plane, and the carrier roller and the extrusion roller are arranged at intervals and are positioned on the same horizontal plane.

4. A simple device for reducing the surface temperature of rolled ultra-white glass according to claim 2, wherein: the water storage groove is arranged below the squeeze roller.

5. A simple device for reducing the surface temperature of rolled ultra-white glass according to claim 2, wherein: the motor is in driving connection with the driving roller.

6. A simple device for reducing the surface temperature of rolled ultra-white glass according to claim 1, wherein: the water outlet pipe is provided with a plurality of water outlet nozzles which are arranged on the water outlet pipe at intervals and downwards.

7. A simple apparatus for reducing the surface temperature of a rolled ultra-white glass according to any one of claims 1-6, wherein: still include the backup pad, the backup pad is equipped with two, two the backup pad is fixed to be located the conveying roller group both sides, outlet pipe, catch basin, water absorption subassembly, high-pressure air blast pipe are erect respectively between two backup pads.

8. The simplified apparatus for reducing the surface temperature of a rolled ultra-white glass according to claim 7, wherein: the water tank and the water pump are arranged on the outer side of the supporting plate, one end of the water pump is connected with the water outlet pipe, and the other end of the water pump is connected with the water tank.

9. The simplified apparatus for reducing the surface temperature of a rolled ultra-white glass according to claim 8, wherein: the water return pipe and the filter are arranged on the outer side of the supporting plate, and the water return pipe is arranged at the lower end of the water storage tank, penetrates through the supporting plate, is connected with the filter and is connected into the water tank.

10. The simplified apparatus for reducing the surface temperature of a rolled ultra-white glass according to claim 7, wherein: the high-pressure air blower is arranged on the outer side of the supporting plate and connected with a high-pressure air blowing pipe, and a plurality of air blowing heads arranged at intervals are arranged on the high-pressure air blowing pipe.

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