Project Description
SELF REGULATING HEATING CABLES CABT/VINEYARDS
Technitrace company has developed a reliable solution against spring frosts and accumulation of snow or ice on the buds of vines and having widely proven itself in vineyards.
Ecological and innovative technology, the CABT++/Vineyards self-regulating heating cable can be cut to the precise length at each end of the row without any loss of power calorific linearity of the latter unlike other technologies used.
Its outer sheath is specially designed to resist a harsh environment (treatments used by the profession, shocks, bad weather, etc and sun radiations.).
Electronic cards have been specially developed for monitoring installations with intensity absorber and heating cable cut detection.
FINAL THERMAL TESTS
READY TO COMBAT LATE FROSTS!
The latest conclusive tests on our heating cable for vineyard frost protection. We regularly carry out tests on the cables we manufacture to measure their performance under different conditions of use and temperature. Our latest tests confirm that our heating cable is :
- a reliable, cost-effective solution
- a preventive solution
- a sustainable solution
If you’re looking for an efficient, self-regulating system, adapted to the size and topography of your vineyard, contact TECHNITRACE, French manufacturer of heating cables dedicated to frost protection. We can advise you on the specific features of your vineyards.
MAIN APPLICATION
- no maintenance and completely autonomous
- low initial investment (around 30K/ha*)
- economical (150 KVA/h or 45 /h per hectare)
- ecological and durable over several years
- simple installation by the winegrower by strapping on the lowering wire
- delivered in pre-wired lengths ready to plug in (50 or 100 m) or in bobin of 300m that can be cut on different lengths on site
- automatic detection of a circuit break
- supply voltage directly on 230 V / 50 Hz
- UV resistant sheath, chemical treatments, etc.
CONSTRUCTION OF A SELF REGULATING HEATING CABLE CABT/VINEYARDS
- Maximum lengtht : 110 m
- Max temperature exposure ON : 65°C
- Max temperature exposure OFF : 85°C
- Supply voltage  : 230 V / 50 Hz
- Breaker thermal protection : 0.30A/m
- Breaker sensibility : 30 mA advised
- Output calorific power: following the thermal transfer : 40 to 20W/m
