Natalіya Lgovska
Winning proposal- Projects 5
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- Rating 482
Budget: 6000 UAH Deadline: 12 days
Good day ,
We will carry out the calculation and the project of the wing with the foundation.
The price is indicated in cash. Payment is possible under the contract with VAT.
More detail can be discussed in personal messages.
Budget: 6300 UAH Deadline: 12 days
Hello to you. I will be happy to implement the work project. I am doing such things. There is experience of calculating the valves and the foundation. Everything will be: from calculations to drawings of constructive elements.
I have engineering education, experience working in this field and specialists who are ready to help solve the most unreasonable tasks.
Budget: 7000 UAH Deadline: 7 days
A month ago, I put a similar design on my drawings.
Budget: 4000 UAH Deadline: 7 days
Good day . I make a calculation on the metal frame, and I can count approximately the foundation, reduce to the commercial. The design of the foundation requires the engineering and geological conditions of the site.
Budget: 5000 UAH Deadline: 5 days
Good day . I offer my services. Examples of work - Google Drive
Budget: 4000 UAH Deadline: 6 days
Good day, I am doing the calculation and mat.analysis of construction.constructions in the project inst, I am doing the task in SCAD++, taking into account the climate. impact of the region. The price is indicated without discharge. Divisions of KM and KJ.
Budget: 4000 UAH Deadline: 10 days
Good day, I can do everything I need except the foundation, there is experience in such jobs, work in the portfolio, in addition, we all discuss in the personal letter.
Budget: 5000 UAH Deadline: 3 days
Good day . Ready to perform this work. I have more than 5 years experience in design. Go back, I’m glad to help.
Proposals concealed
Proposals are currently absent
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Artem P. 9 September 2020Хороший навес. Там будут балки переменного сечения. Сталкивался с таким навесом.
Current freelance projects in the category Engineering
Develop a motor control system based on aCAN bus network, including: Selecting and specifying commercially available PLC hardware and related components. Developing the control software for operating the system from aPC and atablet (or adapting existing software to meet the system requirements). Preparing complete engineering and manufacturing documentation required for the production of the control system. A key requirement is that the maximum communication distance between the controller and the PC or tablet must beup to 100 meters. The main motor parameters, as well as the preferred/recommended hardware components, will be discussed and agreed upon during the project.
It is necessary to develop the design of an ergonomic chair/suspension for a worker who works standing for long periods during the repair of wooden pallets. The chair must be attached to the carriage of the ceiling rail system and move with the worker within the working area. The main goal is to partially relieve the load on the legs and back, while the worker's legs predominantly remain on the floor. Key requirements: designed for a user weighing approximately up to 100 kg with the necessary safety margin; adjustability of height and body support level; comfortable transition between standing, semi-sitting, and sitting positions; quick and safe release of the worker from the chair; ability to rotate around a vertical axis; the chair should not restrict the movement of arms and legs; the design should not interfere with a separate carriage with a winch for lifting pallets; provide an independent safety element or another solution against falling; parts must be available for manufacturing from steel, straps, and standard components. Expected results: Several options for the chair concept. Selection and refinement of the optimal option. 3D model of the design. Drawings of parts and assemblies with dimensions. Mounting scheme to the suspension system carriage. List of materials and ready-made components. Strength calculation of the main loaded elements. Files in STEP and PDF formats for further prototype manufacturing. I am looking for a specialist with experience in mechanical engineering, industrial design, ergonomics, or the development of suspension equipment. Preference will be given to a contractor who can not only create a visualization but also prepare a technically sound design for manufacturing and testing. Detailed dimensions of the rail system, photographs, and my developments will be provided to the selected contractor. The project is related to human safety, so the final design must undergo verification by an engineer and testing before use. Important condition regarding patents: There is a similar suspension system from the company Standing Ovation. Its product can only be used as an example of an already known solution, but its design, layout, and operating principle must not be copied. It is necessary to develop an independent technical solution that will have significant structural differences and will not replicate features protected by existing patents of Standing Ovation. I will provide the contractor with the found patent documents for review. During the development, it is necessary to: analyze the known product and propose another way to support the body; not copy the shape of the chair, frame, suspension, adjustment mechanism, and mounting scheme; prepare a brief description of the main technical differences; create a comparison table of the new solution with the Standing Ovation design; provide for the possibility of further patent verification and patenting of the own design. The contractor is expected to deliver a technically independent design; however, the final legal check for patent purity will be conducted by a separate patent specialist.
Need experience with SolidWorks metal doors We will discuss the terms of reference in private ................................................................
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