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Waterproof 3D Models

Find the best Waterproof 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.

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weatherproofraincoatwearing-yellow-raincoatshort-coated
create a bathbomb mold that looks like the attached photo. make the bath bomb mold functional and solid so that there is no voids and its is waterproof
Anonymous1739248836
A precise technical 3D CAD render of an agricultural IoT soil moisture node. The main unit is an IP65 waterproof ABS plastic project enclosure, exactly 120x80x60mm in size. CRITICAL REQUIREMENT: The box has absolutely NO screen, NO display, NO glass, and NO buttons; it is a completely solid, opaque plastic box. On the top of the enclosure is a single external 868 MHz LoRa antenna (approximately 3 dBi gain) connected via an SMA connector. On the bottom of the enclosure is a heavy-duty waterproof cable gland. Emerging from this bottom gland is a long, 2-meter waterproof black cable. At the far end of this 2-meter cable is a capacitive v2.0 soil moisture sensor, characterized by a flat, corrosion-resistant, black PCB probe design (specifically NOT a purely metallic resistive sensor). Clean studio lighting, isometric view, white background, highly detailed photorealistic industrial hardware design and add this picture as a logo in the box .
Anonymous1773172957
A two piece cylinder, 3/4 inch in diameter and 5 inches long, that joins at the middle by snapping the two parts together. The tube or cylinder should be 100% waterproof, using o-rings to seal the tubes. The final product should be IP68 rated. Both ends of the cylinder should be rounded.
Anonymous1772878524
Can you make some pants that are made for swimming,waterproof,weather,comfort and add the ModRoc logo to the left in white and make the pants look black and make it to where you dettach the sleeves.
Anonymous1772735226
Can you create a long sleeve water proof jacket that you could take off the sleeves and attach a Velcro spot that would allow you to put on a hood can also make it come with the ModRoc logo could you change the font into black and the logo more futuristic. Make the logo smaller and to the right make it look like the one before but with logo to the right and with fututistic font and it black
Anonymous1772735226
Can you create a long sleeve water proof jacket that you could take off the sleeves and attach a Velcro spot that would allow you to put on a hood can also make it come with the ModRoc logo
Anonymous1772735226
Anonymous1770092919
Anonymous1749793295
Create a realistic 3D model of a compact underwater tracking and recording device. The design must be industrial and scientific, NOT shaped like a fish and with no decorative or organic details. FRONT: The front section must include a clearly visible front-facing camera and a small LED light. Both are placed inside a transparent, waterproof dome. RIGHT SIDE: On the right side of the device, add a highly detailed suction-based attachment system inspired by the internal structure of a remora fish’s suction mouth. Include layered suction pads and directional ridges designed for strong underwater adhesion. This is the ONLY attachment method. SYSTEMS: Include an external antenna for receiving signals. Inside the body, add a compressed air chamber used for buoyancy. When a signal is received, the compressed air expands, increasing buoyancy and causing the device to float to the surface. No motors, propellers, or active movement. The device attaches passively to marine animals, records vi
Anonymous1772268995
Create a realistic 3D model of a compact underwater tracking and recording device. The design must be industrial and scientific, NOT shaped like a fish and with no decorative or organic details. FRONT: The front section must include a clearly visible front-facing camera and a small LED light. Both are placed inside a transparent, waterproof dome. RIGHT SIDE: On the right side of the device, add a highly detailed suction-based attachment system inspired by the internal structure of a remora fish’s suction mouth. Include layered suction pads and directional ridges designed for strong underwater adhesion. This is the ONLY attachment method. SYSTEMS: Include an external antenna for receiving signals. Inside the body, add a compressed air chamber used for buoyancy. When a signal is received, the compressed air expands, increasing buoyancy and causing the device to float to the surface. No motors, propellers, or active movement. The device attaches passively to marine animals, records vi
Anonymous1772268995
Anonymous1772151863
3D model of a student-level flood detection device: Raspberry Pi 4 (4 GB RAM) with Camera Module v3 (Sony IMX708 12 MP) inside a waterproof ABS enclosure (150×100×70 mm, 8 mm walls, IP54, target IP65) with 3 mm acrylic lens cover. Include mounting brackets, and visible microSD card. Realistic materials and proportions. Annotations showing: capture 1280×720 every 10 s, inference 120–300 ms, UI alerts only, local CSV logging. Isometric view with clear lighting, shadows, and neutral background, clean and publication-ready.
Anonymous1755434467
The Technical Design Blueprint 1. The Hull (The Raft) To ensure stability while carrying a water tank and battery, a catamaran (twin-hull) design is best. Pontoons: Two parallel 1-meter lengths of 40 mm PVC pipe. Aero-Dynamics: 40 mm PVC cones (reducers or 3D-printed caps) on all four ends to reduce water resistance. Structure: Connect the two pontoons using 40 mm T-pieces and cross-bars to create a "ladder" frame. This platform will hold your electronics box and the sample tank. 2. Propulsion & Steering Motor: A waterproof brushless motor with a 3-blade propeller. Steering: You can use a differential thrust setup (two motors, one on each hull) which eliminates the need for a physical rudder, making it more maneuverable in weedy river water. 3. The Sampling System (The Payload) Intake: A weighted 12V submersible pump or a peristaltic pump (better for maintaining sample integrity). Storage: A small HDPE tank (approx. 500ml–1L) mounted in the center of the raft. Sensors: In-situ probes for pH, TDS (Total Dissol
Anonymous1772096682
make the barier only go up when water is near it .There is a sensor that senses thevwater
Anonymous1772072095
A technical 3D CAD model of a protective single-person life raft canopy structure designed with precise trapezoidal geometry. The structure features a maximum vertical height of exactly 1430 mm at the head end. The width at this widest head section is exactly 700 mm. The canopy slopes downward and tapers linearly along its length to a narrow foot section that has an exact width of 350 mm. Integrated centrally into the upper, steepest sloping face of the head section is a transparent, clear visual shield panel. A continuous heavy-duty zipper runs along the entire central ridge line of the canopy, from the top edge of the head section down to the foot end. The unit is depicted as a taut, waterproof fabric shell holding this exact robust shape.
Anonymous1771759718
cabana em formato de igloo, amarela, com cabos flexiveis para facilitar o transporte da cabana, conseguindo dobrar e desdobrar, a cabana é feita com tecido impermeavel e levemente resistente para resistir chuvas
Anonymous1771783906
Anonymous1770821368
Anonymous1751435629
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