CHAMBER KILNS
CHAMBER KILNS
for glass annealing / cooling
Model |
Volume dm3 |
Inner sizes (mm) w. l. h. |
Outer sizes (mm) w. l. h. |
Power kW |
---|---|---|---|---|
KSC 500 |
570 |
700 820 1000 |
1200 1400 1960 |
14 |
KSC 700 |
720 |
800 820 1100 |
1300 1400 1960 |
17 |
KSC 1000 |
1050 |
800 1200 1100 |
1300 1800 1960 |
21 |
KSC 1600 |
1580 |
1200 1200 1100 |
1700 1800 1960 |
24 |
KSC 2-1600 |
1580 |
1650 800 1200 |
2150 1400 1960 |
24 |
KSC 2000 |
2160 |
1200 1500 1200 |
1700 2100 1960 |
30 |
KSC 2-2500 |
2400 |
1650 1200 1200 |
2150 1800 1960 |
34 |
KSC 2-3700 |
3700 |
1650 1900 1200 |
2150 2500 1960 |
38 |
• reliable door hinges – door opening to the right or to the left as per your choice
• vertically divided door (models KSC 2-xxxx)
• number and size of the small input doors layout corresponding to the inner bearing construction
• manual or pneumatic control of small input doors
• surface finishing of the steel frame: fired powder coating, shade as per your choice
• electric control box on the kiln sidewall – right or left as per your choice
• electrical heating or automatic gas burners
• forced atmosphere circulation
• automatic control of air vents
• controlled annealing
• final cooling by forced ventilation
• controller installed as per kiln model, equipment and technological requirements
• kiln furniture: inner bearing constructions, perforated plates / shelves
• layout of the inner bearing construction, number of shelves as per request
• low energy consumption
• reliable control in automatic mode
• faultless products
• noiseless operation
CONTINUOUS KILNS
for glass annealing / cooling
Model |
Inner sizes (mm) w. l. h. |
Outer sizes (mm) w. l. h. |
Power kW |
---|---|---|---|
TSCG 1,2.16.04-5 |
1200 x 16000 x 400 |
2000 x 22000 x 1700 |
240 |
TSCG 1,4.16.04-5 |
1400 x 16000 x 400 |
2200 x 22000 x 1700 |
240 |
TSCG 1,6.16.04-5 |
1600 x 16000 x 400 |
2400 x 22000 x 1700 |
300 |
TSCG 2.20.04-5 |
2000 x 20000 x 400 |
2800 x 26000 x 1700 |
360 |
• gas heating (automatic gas burners) or electrical heating
• heating and annealing in independently controlled zones
• random conveying speed
• low energy consumption
• reliable control in automatic mode
• faultless products
• noiseless operation