Air filter 3D Models

Find the best Air filter 3D Models, free download in STL, FBX, GLB, OBJ, 3MF, USDZ for 3D modeling and creation in Blender, 3D printing, game developing, animation, eCommerce, AR/VR and etc. Generated by Tripo AI 3D Generator.

You May Also Like :

Anonymous1772167980

Technical cutaway view of a heavy-duty air scrubber. 18 inches tall. One side panel is transparent acrylic, revealing a dense stack of 9 filter layers including purple pellets, black carbon, and white HEPA pleats. At the very bottom, a large, heavy AC compressor is visible on a steel base. At the top, a 60Nm high-torque e-bike motor is mounted to a massive centrifugal blower fan. Visible thick 8AWG copper wiring and a large 1000W power supply unit mounted to the exterior frame. Hyper-detailed, engineering blueprint style, cinematic lighting."The Fortress" (Rugged) "A vertical 18-inch tower with an exposed black aluminum T-slot frame. Rugged matte black panels with industrial ribbing and exposed steel bolts. Heavy-duty rubber isolation feet at the corners."
"Bunker Grade" (Technical) "A semi-transparent side panel reveals a dense stack of 9 filter trays. Thick 8AWG copper wires are visible, neatly zip-tied to the silver metal frame. High-tech and intimidating."
"Laboratory Clean" (Sleek

Anonymous1772167014

Anonymous1772130674

Generate a detailed 3D technical engineering render of a BSL-3 clinical trial laboratory HVAC system designed according to WHO biosafety and ASHRAE 170 standards.

The system must include:

• 100% fresh air intake with weather louver and motorized damper
• Pre-filtration stage (G4 pre-filter, F9 secondary filter)
• Cooling coil and heating coil section inside an Air Handling Unit (AHU)
• Humidity control module
• Final H14 HEPA supply filter with bag-in/bag-out housing
• Differential pressure gauges across all filters
• VFD-controlled supply fan with N+1 redundancy (duty + standby fan)

Room airflow design:
• Corridor at 0 Pa
• Anteroom at -10 Pa
• Laboratory at -30 Pa
• Arrows showing airflow direction from clean to contaminated zones
• 12–15 Air Changes Per Hour (ACH)

Exhaust system must include:
• Low wall exhaust grilles in laboratory
• Dedicated exhaust duct
• H14 HEPA exhaust filter with bag-in/bag-out housing
• Differential pressure monitoring
• N+1 exhaust fans (duty + standby

Anonymous1772105088

Anonymous1736737625

Anonymous1772087466

Dual Air Filter Carburetor Hat
• Mounts on Edelbrock 1406 (128 mm ID base flange)
• 80 mm total height with 11 mm mounting lip
• Two 75 × 121 mm air filter flanges at 180° (opposite sides)
• Optimized internal geometry for maximum airflow
• Designed for 3D printing (ABS/ASA/PA6-CF on Bambu Labs H2S)

Anonymous1770289571

Industrial engineering cutaway of the AeroPack system. STRICT LOGIC: Air enters only through two side HEPA H13 filters at the bottom, moving horizontally into the central Carbon Filter (CF). From CF, air moves vertically UP into the Blower (BLWR). NO OTHER CONNECTIONS. From BLWR, air travels strictly through a single vertical central duct with a purple UVC chamber. PM 2.5 sensors are integrated at the very beginning of the HEPA inlets and at the final MSK outlet. A vertical battery pack is located against the back wall with NO air tubes connected to it. Minimalist assembly, transparent polycarbonate shell, clear air-flow path following the provided sketch arrows. High-detail CAD render, studio lighting

Anonymous1771959232

"A precise 3D engineering assembly of the 'AeroPack' system inside a fully transparent polycarbonate backpack shell. Visual focus on the internal sequential airflow track: 1. External air intakes on top. 2. Thick HEPA H13 and carbon filter cartridges. 3. Compact turbine blower located AFTER the filters. 4. Internal air duct with glowing purple UVC-LEDs. 5. Ionization module at the exit. 6. An HME (Heat and Moisture Exchanger) cartridge integrated into the air hose. The internal components (blue 21700 battery cells, PCB, and turbine) are vertically aligned close to the back panel for mass centering. Smooth, curved aerodynamic tubing throughout. Bottom compartment contains a silver O2 cylinder 'Pro-module'. Ergonomic mesh back panel and straps attached. Clean industrial design, engineering prototype style, non-futuristic, realistic materials (metal, silicone, circuit boards), white studio background."

Anonymous1771959232

Create the real GYTR tenere 700 air filter case for tenere 700 2024 with the exact design and exact meserments

Anonymous1771828099

Anonymous1771882747

Create a 3D model of a smart car air purifier with the following details:

- Shape: Cylindrical body, slightly tilted forward for a modern dynamic look.
- Size: Diameter 60 mm, Height 120 mm.
- Top: Circular air outlet, diameter 40 mm, with a protective grille.
- Side: USB port slot, standard USB size (12x6x10 mm), located near the bottom.
- Base: Round base, diameter 70 mm, height 5 mm, capable of slight tilt for directing airflow.
- Internal: Space for a HEPA filter and a small fan inside the cylinder.
- Colors: Body black, air outlet white, USB slot blue, base dark gray.
- Lighting: Realistic shading and soft reflections to make the model look real.
- Additional features: The device should appear modular, with the top removable for changing the filter, and smooth, ergonomic curves.
- Orientation: The model should stand upright on the base and look ready for installation in a car.
- Realism: The final 3D model should be photorealistic, fully detailed, and visually accurate with prope

Anonymous1771184952

Create a fully detailed 3D industrial mechanical model of the AMPtech Closed Air Filter Cleaning Chamber based on the reference image.

The animation should demonstrate the complete working mechanism in realistic 3D engineering simulation style.

Structure Details:
– Rectangular steel chamber body
– Front transparent glass door with locking hinges
– Top-mounted cylindrical compressed air bead tank
– Internal horizontal sliding rail mechanism
– Movable blasting nozzle connected from top cylinder
– Air filter tray placed at bottom center

Working Animation Sequence:

Machine idle state, door slightly open.

Start button pressed.

Door automatically closes and locks securely.

Internal chamber light turns ON.

Top cylinder assembly activates.

Blasting nozzle moves horizontally left to right on linear rail system continuously.

High-pressure bead spray fires downward in pulsed bullet format.

Spray Physics:
– Compressed particle bursts
– Fast drop pulse
– 1 millisecond micro gap
– Next fa

Anonymous1771087474

Create a precise mechanical 3D model of an inline activated carbon filter for air extraction systems (grow tent style), cylindrical design, engineering-focused, real-world manufacturable geometry, clean topology, non-organic shapes.

SPECIFICATIONS:

Overall format:
- Cylindrical inline air filter
- Total length: 280 mm
- Outer diameter: 170 mm
- Airflow direction: outside to inside (radial filtration toward central core)

Internal structure (from center outward):

1) Central perforated air tube:
- Inner diameter: 100 mm (duct connection standard)
- Wall thickness: 1 mm
- Uniform circular perforations
- Hole diameter: 4 mm
- 35% open area ratio
- Ends reinforced with ring supports

2) Inner retention mesh layer:
- Thin cylindrical mesh around central tube
- Thickness: 1 mm
- Fine grid to retain carbon granules

3) Activated carbon chamber:
- Radial thickness: 32 mm
- Empty volume (do NOT simulate particles)
- Represent as hollow annular chamber

4) Outer perforated structural shell:
- Thickness: 2 mm
- Perfor

Anonymous1752721389

Anonymous1760493535

Anonymous1770325188

Anonymous1770308178