LED Outdoor Signage Generated by 3D Sign Printing Machine Exporter from China
Basic Information of 3D Signage Printing Machine
This LED outdoor signage SINOPEC is generated by a 3D signage printing machine, it is also called 3D sign printer, LED channel letter printer, LED outdoor signage printer or 3D letter printing machine in the signage industry, it is a specialized type of large format 3D printer designed to fabricate 3D channel letters or custom LED outdoor signages through additive manufacturing processes. No bending machine (bender) or UV curing machine is needed, and no acrylic panel or liquid acrylic is needed to make this LED outdoor signage.
Usually, the printing sizes of large format 3D sign printing machines are much bigger than 3D model printers, for instance, the printing width of MITO-120 which is made in China is as big as 48inch (1200mm), and the printing depth of MITO-120 is as big as 90mm. Unlike traditional flat signage or custom acrylic signage, these big 3D signage printing machines construct LED outdoor signages or 3D channel letters layer by layer using material which is called 3D printing filament in FDM (Fused Deposition Modeling) mode, enabling the creation of signs with width, depth, and height, both in small size and big size.
It can manufacture customized large format LED outdoor signages or 3D channel letters in large quantity or small quantity as per your requirement, with multi-style or multi-color output, with illuminated sign effect or non-illuminated sign effect, and with durability for indoor and outdoor signages, interior and exterior logos. Common applications include LED outdoor signages, 3D channel letters, brand logos and company signs for storefronts, decorative and architectural elements, informational displays, and promotional advertisement. Based on CorelDRAW and Iroga 3D slicing software, 3D sign printing machines offer flexibility in design, rapid prototyping, and cost-effective production of low-volume or intricate signs, distinguishing them from subtractive manufacturing like CNC machining.
Nowadays, custom acrylic signs are widely used inside and outside the shops, supermarkets, malls, etc, those custom arylic signs are made in traditional way with traditional machines, such as CNC router, laser cutting machine, engraving machine, bending machine, UV curing machine, slotting machine, welding machine, etc. So why should we use 3D sign printing machines to make large format LED outdoor signages and 3D channel letters? Because there are so many advantages of 3D printed signs against custom acrylic signs, including less machine investment, less space occupation, less material cost, less material waste, less labour cost, more environment friendly, longer automatic working hours, more signage styles, cleaner workshops, etc.
In the case of production of custom acrylic signs in the traditional way, some large machines need to work together, such as CNC router, engraving machine, bending machine, etc, it means that they have to occupy a lot of working space, as a result, it will not only add the cost of sign equipments, but also add the production cost as well, especially in the big cities where the land and houses are very expensive. 3D signage printing machines are much smaller comparing to the traditional sign machines or equipments, however, we have a further way to save the working space more, that is the 3D printer shelf, click here to know how to use 3D printer shelf appropriately.
The 3D signage printing machine is made up of many different parts with different functions, for instance, the printing bed, filament rack, spool holder, XYZ axis, hot end, extruder system, printer case, etc. If you want to know more about the main structure and the crucial parts of a large format 3D sign printing machine, you can read this article for details, the key components of 3D sign printer. We are IROGA Technology, an exporter of large format 3D sign printing machines from China.
Parameters of 3D Signage Printing Machine ( MITO-80 & MITO-120 )
| Item | MITO-80 | MITO-120 |
| Interface Language | EN / ES / FR / IT / RU / CN | EN / ES / FR / IT / RU / CN |
| Packaging Size | 1390 x 1340 x 870 MM | 1800 x 1700 x 870 MM |
| Printer Size | 1230 x 1100 x 700 MM | 1630 x 1500 x 700 MM |
| Maximum Printing Size | 800 x 800 x 90 MM | 1200 x 1200 x 90 MM |
| N.W. / G.W. | 95 KG / 140 KG | 130 KG / 195 KG |
| Voltage | 110 V / 220 V | 110 V / 220 V |
| Power | 720 W | 1000 W |
| Frequency | 50 HZ / 60 HZ | 50 HZ / 60 HZ |
| Printing Mode | FDM (Fused Deposition Modeling) | FDM (Fused Deposition Modeling) |
| Printing Speed | 30 ~ 100 MM/S | 30 ~ 100 MM/S |
| Platform Temperature | 50 ℃ | 50 ℃ |
| Nozzle Temperature | 230 ℃ | 230 ℃ |
| Nozzle Aperture | 0.6 MM / 0.8 MM | 0.6 MM / 0.8 MM |
| Compatible Filament | PLA / PETG / ASA / ABS | PLA / PETG / ASA / ABS |
| Filament Diameter | 1.75 MM | 1.75 MM |
| Filament Installed Quantity | 3 Rolls | 3 Rolls |
| HS Code | 8485200000 | 8485200000 |
Traditional Signage Machine VS 3D Signage Printing Machine
| Item | Traditional Sign Machine | Modern 3D Sign Printer | |
| Machine Type | Bending Machine, Welding Machine, Cutting Machine, Engraving Machine, etc | One 3D Sign Printer Is Enough √ | |
| Machine Investment | More Investment | Less Investment √ | |
| Material Cost | More Expensive (Acrylic Face & Metal Side) | Less Expensive (3D Printing Filament) √ | |
| Material Waste | More Waste | Less Waste √ | |
| Manufacturing Mode | Subtractive Manufacturing | Additive Manufacturing √ | |
| Type of Work | More Manual Work | More Automatic Work √ | |
| Labor Cost | More Workers, More Cost | Less Workers, Less Cost √ | |
| Sign Face Color | Single Face Color Only | Multiple Face Colors Available √ | |
| Sign Face Style | Flat Face Only | Flat Face or Mesh Face √ | |
| Sign Side Color | Single Side Color Only | Multiple Side Colors Available √ | |
| Sign Side Style | Straight Side Only | Straight Side, Beveled Side, or Curved Side √ | |
| Sign Grade | Simple Sign Only | Simple Sign or Complicated Sign √ | |
| Illuminating Option | Frontlit or Backlit | Frontlit, Backlit, or Sidelit √ | |
| Working Space | More Space Required | Less Space Required √ | |
| Workshop | Messy | Tidy √ | |
| UV Resistance | Less UV Resistant | More UV Resistant for Longer Outdoor Use √ | |
Parameters of Filament Consumption of Letter S in Different Sizes (Including Letter Front & Letter Side)
| Letter Name (Channel Letter) | Letter Size (H x W x D) | Consumed Filament Length (per Letter) | Consumed Filament Weight (per Letter) | Consumed Filament Cost (per Letter) | Letter Quantity (per Roll of Filament) |
| Letter "S" | 100 x 77 x 10 MM | 4.71 meters | 14.10 grams | USD 0.16 | 70.9 letters |
| Letter "S" | 200 x 154 x 20 MM | 18.23 meters | 54.58 grams | USD 0.62 | 18.3 letters |
| Letter "S" | 300 x 231 x 30 MM | 39.34 meters | 117.82 grams | USD 1.34 | 8.5 letters |
| Letter "S" | 400 x 308 x 40 MM | 69.01 meters | 206.66 grams | USD 2.36 | 4.8 letters |
| Letter "S" | 500 x 384 x 50 MM | 106.97 meters | 320.34 grams | USD 3.65 | 3.1 letters |
| Letter "S" | 600 x 461 x 60 MM | 153.64 meters | 460.09 grams | USD 5.25 | 2.2 letters |
| Letter "S" | 700 x 538 x 70 MM | 208.25 meters | 623.63 grams | USD 7.11 | 1.6 letters |
| Letter "S" | 800 x 615 x 80 MM | 271.16 meters | 812.02 grams | USD 9.26 | 1.2 letters |
| Letter "S" | 900 x 692 x 90 MM | 343.00 meters | 1027.13 grams | USD 11.71 | 0.9 letters |
