Heat Guns
Leister heat guns and hot air blowers are ideal for plastic welding, shrinking and forming thermoplastics, as well as for drying paint, varnish and much more. Thanks to their powerful hot air blower, as well as various nozzles and attachments, Leister’s professional hand tools are always reliable, even under difficult conditions and for demanding work.
Details
Welding with precision
In contrasts to its predecessor, DIODE S, the DIODE PID provides a digital display and electronic temperature control. This allows for reproducible results in plastic welding with even greater precision. Exactly as with the DIODE S, the air hose is connected to an external Leister blower, such as the MINOR, AIRSTREAM or ROBUST, for the DIODE PID. In addition, the hot air tool can be optimally adapted to any welding work thanks to the extensive line of accessories like push-fit and screw-on nozzles.
Thanks to its light weight and ergonomic design, the DIODE PID is able to carry out mobile and fatigue-free draw welding. The DIODE PID is equipped with a heating tube for plug nozzles as well as for screw attachments.
Highlights
Temperature Regulation
DIGITAL
Electronic temperature control
Using a digital display and electronic control, the temperature of the DIODE PID is set precisely between 20° and 600° C / 68° – 1112 °F .
This allows particularly precise plastic welding.
POWERFUL
Connection for external hot air blower
The light and compact MINOR, weighing only 1,15 kg / 2.5 lbs.,
or the powerful ROBUST with an air volume of 1200 or 1300 l/min / 264 or 286 gal/min can be connected by means of air hose.
SAFE
Cooled air pipe and heating element cover
Work safety is particularly important to us at Leister, which is why the DIODE PID is
equipped with an actively cooled protective tube and a built-in heating element cover.
Downloads
DIODE_PID_101-306_en_Technical Datasheet
DIODE_PID_101-306_en.pdf (412 downloads)
DIODE S/PID Operating Instructions
DIODE-S-PID.pdf (260 downloads)
Plastic Welding – General Catalogue
Plastic-Welding-1.pdf (2518 downloads)