Payment & Shipping Terms:
|Application:||Buildings And Structures, Household Uses, Cooking And Baking, Mobile Devices, Automotive Glass Etc||Heating Way:||Seamless Heating Way|
|Glass:||Toughened Glass, Tempered Glass||PLC:||Siemens Or Omron|
|Ceramic Rollers:||Vesuvius Or Customerized||Control System:||PLC|
Customized Architectural Building Glass Tempering Machine / Architectural Glass Toughened Furnace
Toughened or tempered glass is a type of safety glass processed by controlled thermal or chemical treatments to increase its strength compared with normal glass. Tempering puts the outer surfaces into compression and the interior into tension. Such stresses cause the glass, when broken, to crumble into small granular chunks instead of splintering into jagged shards as plate glass does. The granular chunks are less likely to cause injury.
As a result of its safety and strength, toughened glass is used in a variety of demanding applications, including passenger vehicle windows, shower doors, architectural glass doors and tables, refrigerator trays, mobile screen protectors, as a component of bulletproof glass, for diving masks, and various types of plates and cookware.
Our Glass Toughening machine Video link:
1. Machine Application:
For producing flat tempered glass and thermal strengthened glass, which mainly used in the fields of architecture (doors, windows), shower room, household appliance, garden fence, elevator, furniture, and solar energy industries etc.
|Model||Max. Loading Area||Min.Glass Size||Thickness||Capacity|
|LV-TFQ1525||1500 x 2500||150 x 280||3～19||15～17(5mmfor example)|
|LV-TFQ2436||2440 x 3660||150 x 280||4～19||15～17(5mmfor example)|
|LV-TFQ2442||2440 x 4200||150 x 280||4～19||15～17(5mmfor example)|
|LV-TFQ2450||2440 x 5000||150 x 280||4～19||15～17(5mmfor example)|
|LV-TFQ3060||3000 x 6000||150 x 320||5～19||15～17(5mmfor example)|
|LV-TFQ3380||3300 x 8000||150 x 320||5～19||15～17(5mmfor example)|
2. Machine Main Features:
2.1. Heating section has a helix matrix structure, which can control the temperature of each area independently. Reasonable design and unique structure of heating elements make a long serve life.
2.2. The heating oven body is full closed and the Insulating materials are of high quality material with top performance which can ensure very lower energy consumption.
2.3. Fault diagnosis system for the heating elements.
2.4. We use only two connecting communication between the thermocouples and computer, which will avoid the interruption and make the temperature-measuring more exact.
2.5. The working condition of every thermocouple could be monitored automatically, and the warning will come out if there is any abnormal situation.
2.6. Adopting PID for temperature control, which has the better anti-interference function and higher temperature-control precision.
2.7. Equal three phase power consumption during automatic heating up period; avoiding phase no-equal during no-heating period automatically.
2.8. The fine-adjustment for oven temperature could be achieved by fine-adjusting the temperature of every heating element.
2.9. During the night, the furnace can stay at sleep mode around 500-550 degrees centigrade and preheating takes place before the start of the shift in the morning so that the furnace is ready for production
2.10. The production process, temperature, time, air pressure, etc could be recorded. Therefore, testing production could be saved and production stability could be improved. Also, the production state in different batches could be tracked.
2.11. The machine has the history record and printing function. When glass come out from the oven, the computer will record the control parameters automatically for reference in future or pint them out.
2.12. Powerful operation prompt facility; if there is any wrong operation or fault, the dialog box will be called out to give you help.