Air Force UV Combination Dryers
stencil processing
screen printing
air force...
Air Force UV Combination Dryers
Air Force UV Combination Dryers
Air Force UV Combination Dryers
• Touch Scree...
Air Force UV Combination Dryers
The following specifications are common to all Air F...
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Natgraph Airforce Uv Combination Dryers

Published on: Mar 3, 2016

Transcripts - Natgraph Airforce Uv Combination Dryers

  • 1. EQUIPMENT SOLUTIONS Air Force UV Combination Dryers stencil processing screen printing air force ultra violet infra red Natgraph manufacture a range of Air Force surface coatings applied to graphics, UV Combination Dryers that has been glass, telecommunications, automotive and developed from many years of experience electronics etc, if there is a UV ink available gained in the design and production of for the application, Natgraph will have a over 400 Combined Forced Air and Ultra solution. Violet Conveyorised Systems, in daily use With 7 standard belt widths, Touch Screen world-wide. These versatile dryers have the PLC Control System, 4 layouts, UV lamp ability to dry both solvent based inks and systems with 1 or 2 lamps and modular Ultra Violet curing inks in the same unit design, this range of dryers is extremely These dryers have been designed, adaptable, versatile and efficient. developed and manufactured for drying Air Force UV Combination Dryers Intelligent UV Control System UV Modules Natgraph Limited, Dabell Avenue, Blenheim Industrial Estate, Nottingham NG6 8WA, United Kingdom Tel: +44 (0)115 979 5800 Fax: +44 (0)115 979 5700
  • 2. Air Force UV Combination Dryers Air Force UV Combination Dryers Features • High efficiency fully focused reflectors • Modular construction • Quartz infra red heat filter • P.T.F.E. fibre glass belt • Touch Screen, PLC Control System with • Castors & jacking feet hour meters • Colour coded to industry standards • Gas filled hood lifting arms • Optional ozone filter • Vacuum hold-down system The Natgraph modular range of Air Force Dryers The lamphouses are arranged within the hood to give is availablei in 7 belt widths from 90cm through to the most efficient UV curing at the lowest possible 215cm and is also available with a combination substrate temperature, a cold air jet plate is located of forced air for solvent based inks and Ultra Violet between the lamphouses, which lowers the impact lamps for curing UV inks. These versions of Natgraph’s temperature beneath the second lamp. A 1m wide world famous Air Force Dryers have all the same cooling area follows the second lamp to cool the features and build quality as a standard unit, but substrate even further. with the added versatility of forced air and UV curing within the same dryer. The unique design of Natgraph’s transformers allows Natgraph to force much more cooling air onto The inclusion of a UV curing capability does not the lamp and reflector than is possible with other Air Force Combination extend the length of an Air Force Dryer, as the technology. The end result is a cooler substrate, better Dryers in full production UV lamp system is incorporated within the 2m curing, greater adhesion and therefore the lamps can cooler module, making it into a UV cooler module. be run at lower power settings. This lower temperature This module is completely self contained, with all means that the belt speeds can be decreased, transformers, cooling/extraction fans, control circuitry, allowing more UV energy to reach the inks (without etc. inside. 1 or 2 lamps can be installed in this overheating the substrate), therefore lower lamp power module, which has internal gas filled lifting arms to settings can be used, with much reduced operating give rapid access to the belt if required. Aluminium costs. lamphouses have fully focused, sectional anodised aluminium reflectors, and a flat quartz infra red filter A comprehensive safety system is installed in all window located below each lamp. Natgraph UV systems, this includes a lamp current monitoring system, positive disconnect safety switches, The quartz window has 2 distinct benefits, firstly air pressure switches, earth leakage sensor, thermal it filters out a high proportion of the infra red heat switches within the transformers and a minimum speed Quartz Infra Red heat filters that is being focussed onto the substrate with the UV cut-out device for the belt. These are all linked to a radiation, therefore lowering the impact temperature warning siren to alert the operator in the unlikely event that the substrate is subjected to. Secondly, it forms a of any technical problems. A large, hinged access natural barrier to separate the substrate from the air door allows easy access to the lamphouses for quick that is being used to keep the reflectors and lamps lamp change. An interlock is fitted as standard to at their optimum temperature, thereby also lowering prevent the UV lamps or hot air heating elements the substrate temperature when compared to other being used at the same time, as both are not normally conventional systems. needed and a smaller power supply can therefore be used. In addition, an adjustable vacuum system holds the substrate in position from beneath and also cools Control of the UV system is via the Natgraph Touch the belt itself. The lamps run at 120 watts/cm (300 Screen PLC Control System, this includes individual watts/inch) at high power and 100 watts/cm (250 selection of each lamp, high/low power selection, Air Force UV Combination watts/inch) at low power. As the lamp cooling system virtual ammeters and lamp hour meters. A fault Dryer with high pile is sealed by the quartz window and under negative warning system is also built into the UV control. Automatic Sheet Stacker pressure from the efficient extraction fan, no ozone can escape into the printroom. Air Force UV Combination Dryers can be specified to be anything from a minimum of 5.5m long, Natgraph’s UV technology is acknowledged as depending upon the required production speed and the coolest and most efficient available. This is the drying rate of the inks used. The final specification achieved by extensive knowledge of the discharge is best determined by carrying out drying trials in the lamp requirements for optimum performance and the Natgraph ‘Drying Solutions Centre’. These dryers Natgraph, in-house manufactured transformer systems. require a three phase power supply. EQUIPMENT SOLUTIONS 2 of 4
  • 3. Air Force UV Combination Dryers Features • Touch Screen PLC Control System • Gas filled hood lifting arms • High efficiency fully focussed reflectors • 7 standard model sizes • Quartz infra red heat filters • Optional Intelligent UV Control System • Inlet vacuum hold-down • Optional Ozone Filter • Castors and jacking feet Options A variety of options are available for the range of and versatile, whilst ensuring they fit into the Natgraph Air Force UV Combination Dryers, these intended location as efficiently and economically are intended to make the dryer more productive as possible. 1m UV Module 1m UV Module A 1m UV Module is also available, having all of When UV is required to be fitted to an existing Air the above mentioned features with the exception Dryer, even on other manufacturers units, the 1m of the 1m cooling zone. In this instance a twin UV Module can be used. These modules can also lamphouse, containing 2 lamps with fully focussed be added to existing Air Force Dryers at a later reflectors is fitted because of the available space. date. Intelligent UV Control System Features Adjustable sheet sensor • Compact unit • Lamp height, adjustment • Vacuum hold-down • High power • Ammeter/hour meter • Optional stand • Ozone free lamps The Natgraph Intelligent UV Control System low- When the next sheet arrives in the dryer the power ers the cost of operating a Natgraph UV system, level is increased to the selected level in time for reduces the operating temperature and extends the full curing to take place. It is the unique design of lamp life of the UV curing lamps. A sheet sensor Natgraph’s transformers and cooling systems that detects when no substrate is present within the allow the very low stand-by power level, with test- dryer and automatically lowers the power level ing showing that a power saving of over 35% can of the lamp(s) to 30%. The cooling system is be made using this system, the pay back period Intelligent UV Control System also adjusted to keep the lamp(s) at the correct can therefore be very short. running temperature. In tests, a typical UV dryer has been observed to be curing printed substrate for less than 50% of the period it is switched on, by reducing the power consumption of the dryer during these periods, massive savings can be achieved. Natgraph Air Force UV Combination Dryers are mostly manufactured in, double or triple module combinations, these are from 5.5m upwards in length and the final specification is dependent upon the production speeds required and the curing requirements of the UV ink. The best way to determine the ideal specification is to carry out drying trials in Natgraph’s ‘Drying Solution Centre’, which is available to all. EQUIPMENT SOLUTIONS 3 of 4
  • 4. Specifications Air Force UV Combination Dryers The following specifications are common to all Air Force Dryers Belt Height 79cm – 90cm (31”-37”) Adjustable by the feet, higher options available. Belt Speed 3 – 50m per minute (10’ – 166’) Slower speeds are available to order. Height 114cm – 129cm (45” – 51”) Adjustable by the dryer’s feet. Module Length 2m (79”) Voltage Three Phase 400 Volts 50/60 Hz. AC These figures apply to individual model sizes. Model No. 90 110 130 155 170 185 215 Belt/drying/curing width 90cm (36”) 110 (43”) 130cm (51”) 155cm (61”) 170cm (67”) 185cm (73”) 215cm (84”) Module Width 158cm (62”) 178cm (70”) 198cm (78”) 223cm (88”) 238cm (94”) 253cm (100”) 283cm (112”) (Weights can be confirmed by Natgraph depending upon the size/type and number of modules used.) Electrical Module Type 2m, high pressure, warm (85°C maximum), air modules Model No. 90 110 130 155 170 185 215 Heating Elements 18kW 18kW 18kW 24kW 24kW 24kW 24kW Current (Max. Amps) 26 26 26 34 34 34 34 Motor(s) 2.2kW 3kW 3kW 4kW 4kW 6kW 8kW Current (Max. Amps) 5 7 7 10 10 14 17 Module Type 2m, high pressure, cold (ambient), air modules, Model No. 90 110 130 155 170 185 215 Motor(s) 2.2kW 3kW 3kW 4kW 4kW 6kW 8kW Current (Max. Amps) 5 7 7 10 10 14 17 Module Type 2m, 2 lamp UV/cold (ambient), air modules, (UV lamp power 120watts/cm - 300 watts/inch) Model No. 90 110 130 155 170 185 215 Lamp Power 25kW 31kW 36kW 43kW 47kW 51kW 59kW Current (run) (Amps) 50 60 70 85 95 705 120 Motor(s) 2.2kW 3kW 4kW 4kW 4kW 6kW 8kW Current (Max. Amps) 5 7 10 10 10 14 17 Air Figures are in 1,000m3/hour, per 2m module Model No. 90 110 130 155 170 185 215 2m, high pressure, warm (85°C maximum), air modules Recirculated Air 6.8 8.2 9.5 11.5 12.6 13.1 15.8 Exhaust Air 1.9 2.1 2.3 2.6 2.5 2.6 2.9 (Adjustable) 2m, high pressure, cold (ambient), air modules. Intake Air 4.3 5.6 6.7 7.7 8.4 8.9 10.3 2m 2 lamp UV/cold (ambient), air modules. Intake Air 2.8 3.2 3.8 4 4.3 4.8 5.6 Exhaust Air 2.9 3.4 4 4.2 4.6 5 5.8 NOTE: When calculating power supply sizes for Air Force Dryers, add all the motor and heating element currents of the modules involved together to give the final figure. For Air Forced/UV Combinations, add all the motor currents of the modules involved to the lamp current, but do not include the heating elements. This is because a safety interlock ensures that the air heating elements and UV lamps cannot be used at the same time. The UV lamp currents are calculated with 2 lamps at full power. Example: Model 110 Air Force Dryer, 2m warm, 2m cold = 26 + 7 + 7 = 40 Amps, Model 110 Air Force UV/Combination Dryer, 2m warm, 2m 2 lamp UV cold = 7 + 60 +7 = 74 Amps. Typical power consumption of a Model 110 Air Force Dryer, 2m warm, 2m cold, running at 50°C with an ambient temperature of 20°C is 10kW per hour (including all motors), at average U.K. power costings, this represents a running cost of below 70p per hour. Distributed by: Download our brochures at 4 of 4 05 The manufacturer’s policy is one of continuous improvement and the manufacturer therefore reserves the right to change or modify the design without prior notice. The technical specifications given are therefore for information only.

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