Budget: 5000 UAH Deadline: 2 days
Good day. I have my own base of manufactured metal cabinets. I am ready to complete your task in a short time.
Need a design engineer or metal products designer who can develop a modular metal cabinet for production.
What needs to be done:
Create drawings (technical documentation) of the metal cabinet, which will be assembled using bolts or other fasteners.
Design the structure so that the cabinet is convenient for transportation and quick assembly.
Consider the type of material (sheet metal 0.6–1.2 mm, possibly profile pipe, etc.).
Provide for ventilation holes, reinforcements, and convenient door fastening.
Goal of the work:
To obtain a complete set of drawings for the serial production of cabinets that can be assembled at the enterprise or at the client's location.
For whom the development is intended:
Manufacturing of metal furniture (cabinets for offices, workshops, warehouses).
Will be an advantage:
Experience in designing metal furniture (cabinets, shelves, safes).
Understanding of laser cutting and metal bending principles.
Ability to create files in DXF, DWG, STEP, STL formats.
Result:
Complete technical documentation for manufacturing.
Drawings with detailing and specifications.
Optimized design for serial production.
Budget: 5000 UAH Deadline: 2 days
Good day. I have my own base of manufactured metal cabinets. I am ready to complete your task in a short time.
Budget: 5000 UAH Deadline: 7 days
Good day. Sheet metal products. Stamping, bending, spot welding, rendering. SolidWorks. Files in formats DXF, DWG, STEP, STL.
Budget: 5000 UAH Deadline: 3 days
I can design and organize serial production.
Examples of work here: Google Drive
Budget: 6200 UAH Deadline: 5 days
Vlad, good day.
I work in SolidWorks 2023. I have considerable experience in designing sheet metal products, developing drawings for laser cutting and bending processes. I will prepare files in the required formats for manufacturing.
Write to me in private messages to clarify some details and form a final proposal. I work as a sole proprietor.
Feel free to reach out, I will be happy to collaborate mutually beneficially.
Budget: 6500 UAH Deadline: 14 days
Good day, I can create a parametric model for you, for serial production and size changes with just a few clicks of the mouse. The deadlines and price are negotiable.
Budget: 5000 UAH Deadline: 5 days
Good day!
I am ready to help with the project.
I have experience in designing metal cabinets and other products made of sheet metal.
I will prepare files and technical documentation according to the task.
Feel free to contact me, we will discuss the details.
Respectfully!
Serhiy
Budget: 8000 UAH Deadline: 7 days
Good day, I have experience in designing various cabinets from sheet material and preparing files for plasma and laser cutting. I would be happy to collaborate, feel free to contact me.
Budget: 8000 UAH Deadline: 8 days
I have experience in designing various cabinets. I have also designed various products from sheet material, so I have experience in providing results in these formats: DXF, DWG, STEP, STL, PDF.
Budget: 5000 UAH Deadline: 5 days
Examples of completed work can be found in my portfolio.
I will save in the required format.
I will execute with all the client's wishes.
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.
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.
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.
Assembly Principle: Completely weld-free, exclusively using bolted connections (“NO-WELD BOLTED CONSTRUCTION”). The structure is modular (Flat-Pack) to minimize logistics costs and facilitate self-assembly by the customer. 1. TECHNICAL REQUIREMENTS AND AESTHETICS • Requirement for the developer: The product must be designed to have a flawless, presentable commercial appearance for export to the EU market. • Intuitive assembly: The design should allow for the simplest assembly possible, enabling the customer to assemble the box independently without special tools. • Frame material: Stainless steel AISI 304 (matte), sheet thickness — 1 mm. • Construction: Corner system with flanging for rigidity and safety. Stacking (nesting) during transportation. • Wall filling (sandwich): PIR board (30 mm) with a tolerance of ±4 mm. The groove design should compensate for this tolerance, eliminating gaps. • Wall cladding: PIR board is covered on both sides with smooth stainless steel sheets of 0.5–0.6 mm. • Assembly: Strictly with bolts (stainless steel A2/A4). Minimum number of bolted connections inside the working area for ease of cleaning and disinfection. • Feet: Height 30 mm, integrated into the lower binding contour. 2. DOOR CONSTRUCTION AND LOCKING • Sealing: Rubber seal around the entire perimeter of the reveal and a stop (false bar) for 100% elimination of gaps. • Hinges: Seat design that eliminates play (bolts serve only the function of clamping). • Locking: Mechanical latch lock “finger in hole”. • Door configuration: Doors spanning the full width and height of the facade, divided horizontally into two independent sections: upper and lower. ◦ Lower section: blind. ◦ Upper section: has a viewing window. ◦ Operating principle: The lower section opens first and, when closing, tightly presses against the upper section. • Viewing window (Product No. 1): Located in the upper section. Double-sided, with an air layer. Clamping strips for securing any transparent material (glass, plastic, or film) with a thickness of from 2 to 5 mm. 3. VENTILATION SYSTEMS (Identical for both products) • Protection: Mesh (stainless steel, wire 0.5 mm, cell 0.8 mm). Installation — through clamping frames with bolts (without drilling the mesh). • Upper exhaust (120 cooler): Cutout 200x200 mm in the roof, cooler installation through a flange with M4 thread. Under the cooler (above the mesh) — adjustable damper (shutter). • Lower intake: Two openings (left and right), raised 100 mm from the floor. Area of each — 300 cm². Both intakes have adjustable dampers (shutters). 4. PRODUCT SPECIFICATION • PRODUCT No. 1 (Vertical 600x600x1200 mm): Two-section doors (lower blind, upper with window). Equipment: lamp mounts, cable pass-throughs, mounts for IR film (on the wall), curtains for mesh suspension, strip for the shield from the end. • PRODUCT No. 2 (Horizontal cabinet 600x600x600 mm): Single-section doors without glazing. Equipment: lamp mounts, cable pass-throughs, mounts for IR film (on the wall), stainless steel guides for shelves, strip for the shield from the end. 5. WHAT IS REQUIRED TO BE DELIVERED: 1. 3D assembly: STEP / SolidWorks formats, with the ability to freely disassemble the model. 2. Drawings: Detailed drawings of assembly nodes. 3. Unfoldings: DXF format (considering the K-factor of bending). 4. Specification table (BOM): All stainless steel fasteners.
A gerber file is required to order a board based on the description; there is no schematic, part of the schematic (the PWM) will be drawn by hand. The set is very simple: a power stabilizer based on the ATmega 328, a 1602 display, and three buttons with a couple of small connectors.