The DragonBurner Diffusor, printed in transparent PETG. We include 2 pieces because print defects are pretty hard to spot.
Variants: Micron, Printer for Ants, Voron, Pitchfork
The DragonBurner Diffusor, printed in transparent PETG. We include 2 pieces because print defects are pretty hard to spot.
Variants: Micron, Printer for Ants, Voron, Pitchfork
The DragonBurner Diffusor, printed in transparent PETG. We include 2 pieces because print defects are pretty hard to spot.
Variants: Micron, Printer for Ants, Voron, Pitchfork
The DragonBurner Diffusor, printed in transparent PETG. We include 2 pieces because print defects are pretty hard to spot.
Variants: Micron, Printer for Ants, Voron, Pitchfork
Sunon MF30101V1-1000U-G99 with tachometer output.
Comes with an 1N4148 diode and instructions for the tachometer open collector output.
Every fan is padded with some bubble wrap for additional protection during shipping.
The small blobs on the fan are for imbalance compensation and are not a manufacturing defect!
Technical data:
Operational Voltage (nominal)
12V
Rotational Speed
11500 RPM
Air Flow
0.16 m³/min (5.5cfm, 9.6m³/h)
Static Pressure
0.25 in H2O
Noise Level
23.0dB
Current
0.55mA
Orion OD3010-12HB01A with tachometer output.
Comes with an 1N4148 diode and instructions for the tachometer open collector output.
Every fan is padded with some bubble wrap for additional protection during shipping.
Technical data:
Operational Voltage (nominal)
12V
Rotational Speed
11000 RPM
Air Flow
0.14 m³/min (5cfm, 8.4m³/h)
Static Pressure
0.21 in H2O
Noise Level
30.2dB
Current
150mA
Igus CF9.05.04 cable, suitable for use in 3D printer CAN bus applications. Price per meter. Full length without cut, for example: 2 pcs = 2m.
Important: Measure the required distance yourself, however, 3m should be plenty for both a Trident and v2.4 setup, regardless of the build size and electronics bay routing. The usual rule applies: Measure twice, cut once.
This is a PCB made for Armchair Engineering's Xol Toolhead, featuring:
One hotend cooling fan JST-XH connectors
Two part cooling fan JST-XH connectors
One heater Micro-Fit connector
One thermistor Micro-Fit connector
One Neopixel JST-XH connector
Two auxiliary JST-XH connectors
One extruder motor connector
Selectable fan voltage (5V, Alt, 24V)
Integrated mount for carriage screw
This PCB is not pre-soldered, you need to solder it yourself.
This small open-source controller is used to control your Nevermore StealthMax or Mini using Klipper. You can use CAN or USB, depending on your requirements. It also has connectors, so you can hook up sensors to measure VOCs.
Note that this is designed only for 4 wire fans, where the fan speed is controlled via a separate wire. This board cannot be used with your 2 wire fans or 3 wire fans with tachometer. A suitable fan would be the GdsTime GDP4028.
Features:
1x 4 pin fan connector
2x HW I2C, 1x Optional Sensor Module Mount
1x Neopixel
1x CAN
Installation instructions can be found on the GitHub Repository. Since we test all boards, you can skip steps 1-6.
Designed by Isik's Tech
A compact PCB with SGP40 and BME280 sensors wired in I2C mode and powered with 3.3V. Comes with straight and right-angle pin headers, so you're flexible with the installation.
The I2C address of the BME280 is 119, make sure you configure it as i2c_address: 119 in your software.
To make use of the SGP40 sensor in Klipper, you need an additional module. Installation instructions can be found on the Nevermore Max Repository.
Documentation can be found on GitHub.
Designed by Isik's Tech
The small variant of the OptoTap board, suitable for small printers and solutions like Boop or MetalBoop.
Comes with the Optek OPB666N sensor (rated to 100°C)
Overview of Nevermore Scorch
Nevermore Scorch is an advanced air filtration media, designed for the unique demands of 3D printer chambers, especially at elevated temperatures. Traditional carbon filters become less effective above 50°C and are significantly less efficient above 60°C. Nevermore Scorch adds the heat resistance regular carbon lacks, and when mixed into carbon increases the range of VOCs that can be caught, making a carbon/scorch mix the best filtering solution for all filament/resin types.
Innovative Filtration Technology
This product is a zeolite-based, highly microporous adsorption medium, enhanced with potassium permanganate (KMnO4). This combination can not only bind VOCs permanently, but even transform toxins like styrene - a major VOC in ABS filaments - into harmless potassium benzoate (food additive). The process is not harmed by high chamber temps, but accelerated, making Nevermore Scorch ideal for heated 3D printer chambers! Scorch color changes from bright purple to a dullish gray as its slowly being spent, giving a perfect visual indication of when its time to swap filter media!
Optimal Carbon/Scorch Ratios for Temperature Ranges
Below 35°C: 90% Carbon / 10% Scorch
40°C ± 5°C: 75% Carbon / 25% Scorch
50°C ± 5°C: 50% Carbon / 50% Scorch
60°C ± 5°C: 25% Carbon / 75% Scorch
Above 65°C: 100% Scorch
Compatibility and Printer Safety
Nevermore Scorch is steam-activated and designed to be safe for use in 3D printers, without causing damage printer metal parts. Additionally, the pellets are visually indicative of their usage: bright purple when fresh, turning grey as they react and become spent! This visual cue provides a simple and effective way to monitor the lifespan of your filtration media.
Handling and Safety
While Nevermore Scorch is not inherently harmful or toxic (its safe to touch by hand), it is advisable to handle with care. Avoid contact with eyes or airways, as KMnO4 will react with mucous membranes. The safety of our users is a priority, and while risks are low, they should not be overlooked. Plastic gloves will protect from accidental SCORCH residue being on your fingers when later scratching your eyes, a face/dust mask will protect from inhaling KMnO4 dust when pouring or refilling filters, and protective glasses from accidentally getting SCORCH in your eyes (it hurts!).
Environmental Considerations
The product, when saturated with VOCs, can be disposed of in regular waste systems. However, care should be taken to ensure unspent KMnO4 does not leach into nature – if Scorch is still bright purple, reactive KMnO4 can leech into ground water where it should not be! If your use of the product ends, unspent Scorch needs to be taken care of by waste management authorities, disposed of inside the sealed bag, or neutralized with 3% hydrogen peroxide solution.
Xol Hardware Kit (for Update 2024-06-19)
Includes carriage parts, toolhead mounting hardware and optional hardware. Includes some spare screws and inserts. Note that the screws to mount the extruder are not included, as these vary depending on the specific extruder you use.
The product photo shows the original Xol Kit contents, we try to update the kits as the project progresses.
Cable Tie 1.8mm wide
4
Heatset Insert M3x5x4
12
M2.5x08 SHCS
10
M2.5x16 SHCS
6
M2x10 self-tapping screws
4
M3 DIN9021 Washer
4
M3 Nut
9
M3x06 BHCS
4
M3x08 SHCS
17
M3x16 SHCS
8
M3x20 SHCS
4
M3x20 Standoff
2
M3x30 Pin
2
M4 Metal Tube
2
GitHub Repository
This small and handy PCB allows you to connect devices in parallel - no matter if they are using PH, XH, or a combination. Even right-angle connectors are supported.
Note that the maximum current is 2A total.
PCB Size 60x12mm, Screw Hole Distance 48mm, Mounting hole Diameter=3.2mm, max. Screw Head Size 6.4mm.
If you intend to screw this onto an extrusion, make sure you use plastic spacers to prevent the pins shorting out.
€0.59*
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