Vladimir Litvyak
Winning proposal- Projects -
- Rating -
- Rating 149
Budget: 5000 UAH Deadline: 2 days
A couple of years of work on the customer on the boilers of different capacities, as well as the car supply system
HTTPS://grabcad.com/library/automatic-feeding-of-granules-1
HTTPS://grabcad.com/library/boiler-11
Proposals are currently absent
Budget: 5000 RUB Deadline: 2 days
Ready to take your device. Ready to take your device.
- Projects 7
- Rating -
- Rating 435
Budget: 40000 UAH Deadline: 30 days
Hello, there are 2d drawings, I can adapt to 3d under manufacturing, drawings under assembly, detailed with the day assembly scheme for 3 I can, I work in Skechup write to LS I can offer another design
by Cyril
https://www.instagram.com/kirjugin?r=nametag
Budget: 5000 UAH Deadline: 4 days
Ready to implement the project. Detailed technical task send to L.S.
- Projects 7
- Rating -
- Rating 242
Budget: 5000 RUB Deadline: 8 days
⭐⭐⭐⭐⭐Examples of works
Google Drive
HTTPS://youtu.be/qLOybMp8hjY
Budget: 6000 UAH Deadline: 100 days
Good day . Ready to cooperate. Working at the approach directly to the consensus of details. Please contact the personal message.
Proposals concealed
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Vladimir Dudchenko 12 April 2020А именно нужно на опилках ? Что В имеете ввиду. Есть похожий проект.
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Dmitry Reshetnik
12 April 2020
Здравствуйте!
Да на опилке, тырсе итак д.
Меня в первую очередь интересует готовый проект, посмотрю может у кого нибудь он есть.
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Vladimir Dudchenko 12 April 2020На опилках и дереве, пеллетах они проходят тесты, а вот с тырсой более сложнее. Просто вентиляторы не могут продуть такой бьем жала и форсунки быстро перегорают или забиваются. В результате нет не какого пиролиза.
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Vladimir Dudchenko 12 April 2020И даже если есть такие котлы то их будет трудно сделать для изготовления в домашних условиях так же испытать чтоб давление не разорвало его. Так же нужно еще пульт управления сделать. Может я чего то не понимаю правда )))
Current freelance projects in the category 3D Modeling
A person is needed who can work with 3D animation. Task: recreate a 3D image on a face of a similar nature and then overlay this on "Before" and "After," as a result of transformation after the procedure. Important: to do it manually (NOT AI), own idea and interpretation.
1. General GoalCreate a dynamic interface element based on the provided template, consisting of three angles of a cup (Front cup, Back view, Side view). When clicking on any print option, the image must change simultaneously and synchronously on all three cups considering the angle, volume, light, and shadows for each position. 2. Output File Requirements (For Designer / PSD Template)The basic layout must be prepared in PSD format. To automate and facilitate print replacements, the structure should be based on linked smart objects (Linked / Duplicated Smart Objects).Main requirement for PSD architecture: The layout must have one master smart object with the print layout. The designer duplicates it for three angles, but applies individual transformations to each duplicate: For the front cup: Print deformation at the center (Transform -> Warp or Cylinder). For the back view: Texture shift (showing the reverse side of the layout) + cylinder deformation. For the side view (near the handle): Texture shift to the edge + stronger perspective compression closer to the handle.Layer structure for each of the 3 angles: Group "Shadows & Highlights" (Top layer of the angle): Individual for each angle. Highlights: Layer with glossy reflections. Mode: Screen or Linear Dodge. Shadows: Layer with a gradient that defines the cylindrical volume. Mode: Multiply. Layer "YOUR PRINT" (Duplicated Smart Object): Has individual deformation and shift settings for the specific angle. Layer "Cup Base" (Base of the cup): Body, handle, and inner part at their angle. Layer "Global Shadow": Shadow on the surface under each cup.Note for the designer: When saving a new design inside the master smart object, the print must automatically and correctly update on all three angles of the cup in PSD. 4. Behavior Logic and Animation
Visualization of the apartment design with an area of 170 m2
Quality visualization of an apartment is needed, 3d max, corona render, according to the technical specifications, with an area of 170 m2, in a modern style, deadline - 1 month, cost 6$/m2.
Hello, I am contacting you in reference to your profile and extensive portfolio in prototyping and CAD documentation. I run an interior finishing and installation company and I am currently looking for an experienced furniture constructor / technologist to cooperate with on custom, non-standard projects. To start, I would like to commission a pilot project. The design is highly specific and structurally demanding – I need professional engineering verification and the preparation of production files for an external CNC factory. Here are the technical assumptions for the under-stair closet I am building: Space: A niche with a width of approx. 374 cm, height of 254 cm, and an unusual depth of exactly 100 cm. Movement concept: The closet consists of 5 independent, full-size modules (boxes) that slide completely out of the niche into the hallway. The tops of the modules are cut at an angle to match the staircase. Mechanics and load distribution: At a depth of 100 cm, a fully loaded box will be extremely heavy. Therefore, I want to use a "container" logic: 100% of the weight of each module must rest on bottom-mounted, heavy-duty polyurethane wheels hidden behind a plinth. The side drawer runners must not carry any weight – they are to be used strictly to stabilize the sliding track. Material: The entire structure will be made of plywood (I am tentatively assuming an 18 mm thickness for the frames, module bodies, and structural shelves to ensure absolute rigidity). What I need as part of this commission: 1. Engineering verification of the concept (confirming material thickness, determining necessary assembly clearances between modules). 2. Selection of appropriate hardware (specific models of heavy-duty wheels and suitably long stabilizing runners). 3. Generation of assembly drawings (for my installation process). 4. Preparation of a Bill of Materials (BOM) and ready-to-use vector files (DXF/STEP) including drill holes, which I will send directly to my partnering CNC plywood factory. I have attached my preliminary sketches and dimensions to this email. Please let me know if you are able to take on this project and provide an estimated quote for preparing the complete manufacturing package. Best regards, Mirek
It is necessary to develop the design and a ready layout for printing/cutting a tabletop POS stand for the Fesco Ultra brand. The stand will be used for presenting the brand's products: toothpaste, toothbrushes, dental floss, and floss picks. We provide approximate references for better understanding below. The left side of the stand - shelves/niches for Fesco Ultra toothpaste. It is necessary to provide space for 4 tubes: 2 on top and 2 on the bottom. The right side of the stand - area for toothbrushes and floss. It is necessary to provide space for the vertical placement of toothbrush packaging (so that they are securely held), as well as a lower shelf/niche for dental floss and floss picks. The central part of the stand - game mechanics. At the top, the visitor drops a ball, it falls down, bouncing off pins/obstacles, and lands in one of the lower compartments. Each compartment will have a prize or action written on it. At the bottom of the central game panel, separate compartments for game results need to be provided, each of which must be equipped with a place to insert a variable card with the name of the prize. The design should allow for quick manual card changes. The solution can be in the form of slots, grooves, or transparent holders - the main thing is that the cards can be easily inserted, removed, and replaced. It is important that the mechanics work: the ball must fall freely, not get stuck between the pins, not fly out of the stand, and land in one of the compartments. It is necessary to think through the placement of the pins, edges, transparent front panel/protection, hole or area for launching the ball, as well as the lower compartments for fixing the game result. It is also important to consider how to easily retrieve the ball. As a result, we need to obtain: A structural drawing of the stand at a scale of 1:1. A layout for printing and cutting/milling. Separate layers for printing, cutting, creasing/folds, and technical elements. A visualization of the finished stand with products. Final files in formats suitable for production transfer. On our part, we will provide everything necessary for the work: product dimensions, logos, photos/layouts of goods, references, style preferences, and other materials needed to create the finished stand layout. We are open to collaboration. The cost of work is negotiable and can be discussed after clarifying all project details.