Budget: 12000 UAH Deadline: 20 days
Good day . Ready to implement your project. I have experience working with stamps and cutting machines.
Budget: 12000 UAH Deadline: 20 days
Good day . Ready to implement your project. I have experience working with stamps and cutting machines.
Budget: 8000 UAH Deadline: 15 days
Good day . There are ideas that to your problem, I can offer different solutions. On the basis of the decisions taken, there is the possibility to produce full-fledged equipment that will perform the removal of the foam. I look forward to your answer.
Budget: 10000 UAH Deadline: 10 days
Good Morning Cyril!
Automatic is easier to make, mechanical is more complex, but it is also possible. Let’s write! Congratulations to Alexis!
якщо по телефону або осбисто, то навіщо звертатися на фріланс-біржу?
шукайте особисто або по телефону!
Зробіть нормальне ТЗ, а тоді створюйте проєкт!
Нам потрібне рішення нашої задачі. І як саме це правильно робиться тут не почснюється
Добрий день, шановний.
Опишіть , будь ласка, задачу конкретніше і відео причепіть до проекту.
Ні "особисто" ні "по телефону" на цьому ресурсі поспілкуватися не вийде- заборонено Правилами до моменту вибора виконавця.
А можна просто щоб хтось виконав замовлення і ми заплатили йому гроші? Чи тут так не працює??
Звичайно можна. Все одно Ви повинні треба вибрати виконавця...
Але щоб виконати замовлення треба якомога чіткіше описати проект.
Запакуйте відео у архів та приєднайте до опису проекту як доповнення.
Можете прямо сюди причепити. Якщо не вийде причепити ціле відео - мбо зробіть кілька скриншотів характерних моментів існуючого процесу, або виріжте фрагмент з проблемним моментом обробки.
я думаю, що варто розглянути варіант застосування фрезерного CNC станка.
Ви вже маєте контур деталі, бо вирізаєте на лазері і можете його використовувати, по друге, якщо це потреба для різних деталей то матимете універсальний "пристрій" - змінюєте тільки програму (фреза та сама 😉)
We need a design engineer or a spring design specialist with experience in calculating and developing design documentation. Required tasks: calculate spring parameters according to specified technical requirements and samples; select the optimal material according to operating conditions; determine the main geometric parameters (wire diameter, outer/inner diameter, number of turns, pitch, length, etc.) from the provided sample; perform verification calculations (stress, working stroke, resource, safety margin); prepare drawings for further production; provide a specification indicating the material and main technical characteristics. Types of springs: compression springs; extension springs; torsion springs (if needed). Requirements for the performer: experience in spring design; knowledge of standards (DIN, EN, ISO, GOST or similar); understanding of spring manufacturing technology; At the beginning of cooperation: The development of several springs is planned. If the cooperation is successful, long-term collaboration with regular orders is possible.
Develop a control program (G-code) for a CNC milling machine for cutting parts from a solid blank using the nesting method (optimal packing). Initial data: — 3D models of parts in the format you need — Material of the blank: polystyrene — Size of the machine table and blank: 1200×1200×150 mm — Machine: three-axis milling (to be discussed) — Diameter of the cutter: to be discussed — Number of axes: 3 Requirements for the result: — Optimal placement of parts with minimal material waste — Correct allowances for tool diameter (radius compensation) — Technological bridges (tabs) to hold parts during cutting — Order of passes: rough pass → finishing — Post-processor for the specified machine controller — G-code file + screenshot of the trajectory simulation Experience that is mandatory: — Work in a CAM system (Fusion 360 CAM / Mastercam / SolidCAM / ArtCAM or similar) — Experience in nesting parts — Understanding of cutting modes and feeds for specific materials In your response, please specify: — The CAM system you are working in — Machine controllers for which you have written post-processors — An example of a completed similar work
We are looking for a physicist engineer or a design engineer with experience in developing induction chargers, Qi/Qi2, and working in KiCad. We already have: a ready-made wireless charging board for two devices; two coils for charging a phone and headphones; the case design and 3D models. What needs to be done Add a third charging channel for Apple Watch. Select and calculate the coil, electronic components, and connection scheme. Resolve the issue of correct Apple handshake and compatibility with Qi/Qi2. Check if the system can stably charge three devices simultaneously. Calculate the required power of the power supply, heating, and main electrical parameters. Consider the shielding of the coils, as the charger is installed inside a wooden case. Prepare or refine the schematic and PCB in KiCad. Provide recommendations on design, safety, and further certification of the device. We are considering two work formats: full development and preparation of files; engineering consultation with calculations and recommendations that our specialist can implement. Please, when responding, write: whether you have experience with wireless chargers Qi/Qi2; whether you have worked with Apple Watch or MFi components; whether you can perform calculations for coils, power, heating, and shielding; attach examples of similar projects.
Good evening! It is necessary to assemble a lamp using electronic components that are sold in the USA, specifically on specialized sites. If you can design the casing where these components will be inserted - great, if not, that’s fine too. The components need to be selected so that minimal effort is required for connection. Two options are needed: Option 1: A bedside lamp that can be charged via USB-C in 2-3 hours and the charge lasts for at least 100 hours of operation + battery discharge indicator + touch activation. Option 2: The same but with added Wi-Fi and connection to smart home systems like Google/Amazon Alexa and others + the ability to charge via wireless charging, so include wireless charging. Work stages: 1. Provide a list of components and connection instructions to assemble without designing the casing. 2. We assemble the model and check that it works. 3. We close the project.
Planning options for a shower module for military use based on 20 and 40-foot shipping containers. Various combinations are available. This is an AI-generated photo; it needs to be adjusted and smart dimensions for walls, partitions, and overall sizes applied for further manufacturing.