Propane-butane consumption |
m3/h |
1,2 |
Working pressure propane-butane not less than |
bar |
2 |
Compressed air consumption |
m3/h |
36 |
Working pressure of compressed air not less than |
bar |
5-6 |
Fluid Bed Tank volume |
kg |
7 |
Powder utilization coefficient not less than |
% |
0,95 |
Sizes of thermoplastic powder particles |
microns |
50-350 |
Possible coating thickness |
mm |
0,15-3 |
Powder consumption at a layer thickness 250 microns not more than |
kg |
0,3 |
Weight of equipment |
kg |
14 |
Dimensions (L×W×H) |
m |
0,4×0,2×0,5 |
This model has reached a fundamentally other level of manufacturability and operational properties. A fully computerized control system ensures automatic retention of flame burning parameters and powder feeding. This allowed programmatically to install all necessary modes and create a fairly simple management interface. It is enough for the operator to select the used paint and the type of spray gun in the menu. The control system itself will automatically hold the specified parameters for this mode.
Power supply |
V |
220 |
Computer management |
touch panel |
|
Programmable modes of operation |
yes |
|
Ignition of a flame |
pieza |
|
Propane-butane consumption |
m3/h |
1,2-1,5 |
Working pressure propane-butane not less than |
bar |
2 |
Compressed air consumption |
m3/h |
36-40 |
Working pressure of compressed air not less than |
bar |
6 |
Fluid Bed Tank volume |
kg |
15 |
Powder utilization coefficient not less than |
% |
0,95 |
Sizes of thermoplastic powder particles |
microns |
50-350 |
Possible coating thickness |
mm |
0,15-3 |
Powder consumption at a layer thickness 250 microns not more than |
kg |
0,3 |
Weight of equipment |
kg |
45 |
Dimensions (L×W×H) |
m |
0,9×0,6×1,2 |