Budget: 8000 UAH Deadline: 7 days
I can offer a 3D modeling service of the products you need under the necessary technology of their manufacture. I guarantee good design in SolidWorks – with variables, dependencies and linear massives where needed.
Budget: 8000 UAH Deadline: 7 days
I can offer a 3D modeling service of the products you need under the necessary technology of their manufacture. I guarantee good design in SolidWorks – with variables, dependencies and linear massives where needed.
Budget: 20000 UAH Deadline: 10 days
Hello to you.
Ready to perform
The portfolio:
Google Drive
Period of 7-10 days
Orientation price with a 20-25t print
Google Drive
Budget: 2000 UAH Deadline: 10 days
Good day . I can only create a 3D model and all the necessary drawings.
Budget: 1000 UAH Deadline: 10 days
Good day . I can design this box and prepare files for 3D printing. But the possibility of printing it has no, big dimensions. If you are interested, contact me.
Добрый вечер.
Это работа для диссертации?
Иначе как объяснить зачем эти требования:
"...Нужно грамотное проектирование в SolidWorks - с переменными, зависимостями и линейными массивами, где это нужно. "
Что изменится, если исполнитель выполнит работу совершенно иным методом и получит нужный Вам результат?
Еще на начальных курсах в вузах нас учили понятиям : "Необходимость и Достаточность" ....
Здравствуйте!
Можно и другим методом, главное чтобы без допилом, легко повторяемым и модель в солиде не вызывала отвращения у инжинера, который через время будет вносить правки
а що сталося з попереднім проектом?
https://freelancehunt.com/project/sozdat-solidworks-korpus-batareynogo-otseka/1087709.html
Опытный образец начал разваливаться уже при сборке. О герметичности и виброустойчивости и речи нет.
Мое почтение.
Ув. Заказчик, подозреваю, что Вам кто-то дал не очень корректные данные.
Как Вы пишите, "Корпус должен быть полностью герметичным" и на финише, почему-то в примечаниях: "В дальнейшем, в корпусе будут просверлены отверстия и будет закачиваться жидкость под давлением до 2 атмосфер, это нужно учесть в расчете герметичности". Такой параметр нельзя выносить в примечания, он есть один из основных.
Далее. Планируете в емкость заливать жидкость под давлением 2 атмосферы и планируете такое изготавливать печатью на 3D принтере. Парадокс... Пластиковый корпус + 2 атмосферы + вибрации + небольшие удары. Корпус распечатанный на 3D принтере очень быстро "погибнет" или просто не выдержит пробного запуска.
"в корпусе будут просверлены отверстия и будет закачиваться жидкость под давлением" - не буду вникать в подробности, но нельзя "на вскидку" сверлить напечатанное на принтере изделие, не будет ни герметичности ни прочности.
Почему сразу в задании не закладываете точки присоединения входа и выхода жидкости? Или потом "по месту"?
Ну и завершении вопрос, почему такой корпус не хотите изготовить литьевым методом? По несущим способностям, стойкости и герметичности только выиграете.
Да, ошибся. Можно и не на 3д принтере, просто надо изготовить.
Изначально точки не указываю так как это первый опытный образец и я не знаю сейчас где они будут.
Литьем, конечно, было бы в идеале, просто предполагал что будет слишком дорого как для опытного образца. Лет 7 назад делал корпус раз в 10 меньших размеров, там сама силиконовая форма обошлась в 18к
Если напишите в личку, можем более подробно обсудить желаемое и то, что можно получить.
A performer is needed to carry out similar work in Autodesk Inventor. Task: process 245 DWG drawings, in one DWG file one sheet, place the necessary dimensions and annotations according to the sample (dimensions 2-3 and 2-4 annotations); check the correctness of the formatting; export each drawing to PDF. The work is similar, the same formatting principle is used for all files. All necessary views are located on the sheet. All additional information and files will be provided to the selected performer, and a test sample for 5 files will also be offered.
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.
We are preparing to open a primary healthcare clinic (first floor, ~200 m²). There is a current layout plan with dimensions (PDF in attachments) and photos of the premises. The main area is an open space of 109.26 m² with panoramic windows along the arc and round columns. What needs to be done: Planning solution. Place 4 additional doctor’s offices in the open area of 109.26 m², while maintaining the reception, waiting area, access to the procedure room, restrooms, and emergency exits. The offices should be approximately 10–14 m², preferably with natural lighting. The solution should be budget-friendly: lightweight partitions (aluminum/drywall, as in the photos already installed), without major changes (but we are ready to consider alternatives). Minimal interior design concept. A unified palette and materials for the entire clinic (walls, floor, lighting, reception, waiting area), navigation within the premises. No expensive decor — clean, bright, modern, “medical.” 2–3 visualizations of key areas (photorealism is not mandatory). We have a brand book. Facade concept. The exterior appearance with the clinic sign and window decoration, 1–2 angles. Minimal interventions, no reconstruction. Drawings. Updated plan with dimensions and explication — PDF + output (DWG or similar). In your response, please indicate: cost (can be phased: plan → design → facade), timeline, examples of similar work (medical/commercial premises — a plus). We are open to considering options from beginners.
“Good day! I need to develop a drawing of a machine (device) for stitching sheets of agricultural crops. I will provide photos and video materials. Main requirements for the project: Simplicity of design: The machine should be as simple as possible to manufacture and assemble. It is preferable to use readily available materials that can be easily purchased. I understand that some parts will still need to be made individually (custom-made). There are no obstacles with shaping (bending) sheet metal and welding work. Reliability and minimal maintenance. Desired power supply is 220 V. However, I leave the final decision to you — as specialists, you know better which option will be better and easier to implement. Below, I am adding videos with examples of similar machines, as well as videos of similar devices for stitching brooms — perhaps some design solutions can be borrowed from there for our project. Have a great day, I look forward to your proposals!” https://youtube.com/shorts/rT6q4pa_VSY?si=_6iCZLlPV0YXvtUo https://youtu.be/V9nMWLxpIbA?si=xfFpMIFf6qxE0WRB
Output data: Existing building: single-story office building; structural scheme — frame-less brick; external walls thickness 380–640 mm; internal load-bearing walls thickness 380–510 mm; ceilings — precast reinforced concrete hollow-core slabs; foundations — columnar with FBS blocks; approximate dimensions of the building — 40.34 × 28.84 m; building area — about 747 m². Planned: dismantling of the existing rafter system and roof; addition of a second floor with glued laminated timber structures; installation of a new wooden roof structure; reconstruction of the existing building with partial changes in loads on load-bearing structures.Required to perform: Analysis of the provided technical report on the building inspection. Verification calculation of existing foundations, walls, and ceilings for the perception of additional loads from the addition. Development of structural solutions regarding: installation of reinforced belts; strengthening of brick walls; strengthening of foundations (if necessary); ensuring spatial rigidity of the building; nodes for load transfer from glued laminated timber structures to the existing building. Calculation and justification of the adopted solutions. Issuance of a set of drawings for the stages of KB/CM/KZ (depending on the adopted solutions). Consulting support during the development of wooden structures and implementation of the project.Output documentation: Scientific and technical report on the building inspection. Measurement drawings. Architectural solutions for the addition. Preliminary concept of glued laminated timber structures.Requirements for the contractor: availability of a design engineer certificate in terms of ensuring mechanical resistance and stability; experience in the reconstruction of existing buildings; experience in designing the strengthening of brick or stone buildings; preferred experience working with additions of wooden structures or glued laminated timber.Message text for Freelancehunt Good day. We are looking for a designer to participate in the project of reconstructing an existing single-story brick office building with a subsequent addition of a second floor made of glued laminated timber. It is necessary to take on the development of structural solutions regarding: reinforced belts; strengthening of existing brick walls; if necessary — strengthening of foundations; ensuring spatial rigidity of the building; load transfer from new wooden structures to the existing building. A technical inspection of the building and measurement drawings have been completed, which will be provided to the contractor after preliminary discussion of the project. Preferred experience: reconstruction of existing buildings; development of solutions for strengthening stone or brick structures; work with additions or wooden structures. Please include in your response: a brief overview of your experience; examples of similar completed projects; available certificates; estimated budget and timelines for the work. We are ready for long-term cooperation on similar projects.