Single-axle trailer

Hello! I will develop working drawings, specifications, and 3D visualization of the trailer platform for your equipment. I will design a reliable integration of the inertia brake with a non-spring (torsion) axle and calculate the correct weight distribution for a single-axle base (750 kg). Message me privately, I am ready to start working.

Show original

Translate

Good day. I am interested in your project, please contact me, I will be happy to help.

Show original

Translate

Good day! I have been working as a designer since 2009. I will create a 3D model in SolidWorks, provide all necessary drawings for manufacturing, specifications, etc. I will be happy to collaborate.

Show original

Translate

Good day, dear.
I am duplicating this here (maybe you do not check the discussion tab)

I have already done a very similar project, which the client produced and successfully tested during travels in Scandinavia.
https://freelancehunt.com/showcase/work/pritsep-turisticheskiy/604409.html
There is also an example of drawings for this product.
The rate is conditional based on 2500 UAH/work day.
The deadline for completion will be agreed upon.
If you are interested in my proposal - write to me in private messages.

Show original

Translate

COMMERCIAL PROPOSAL: TRAILER DESIGN (750 KG)
Object: Single-axle platform 3000x1700 mm for the installation of mobile equipment.

Audit and Risks:

Red flag (Budget): Revising the rate to 18,000 UAH moves the project from the "spam/dumping" category to the engineering design working area.

Technical risk: With a weight of 750 kg and the absence of springs, it is critically important to select a torsion bar with a margin for dynamic load (considering road conditions). Using standard axles without calculating the center of mass of the equipment will lead to swaying (shimmy) at speeds above 60 km/h.

… Fly (Anomaly): Reference photos show diesel generators/pump stations. This is a point load. The frame must have reinforced longitudinal beams specifically at the points of support for the unit's legs, not around the entire perimeter (weight saving while maintaining rigidity).

Technical Solution (Full Pack):

Layout development: Determining the optimal position of the axle to ensure the load on the tow ball is within 40–70 kg.

3D design: Developing a complete model in SolidWorks (frame, drawbar, brake mounting nodes, lighting).

Design Documentation:

Assembly drawing of the frame (welding).

Detailing (cutting profiles, bending sheets).

Assembly drawing of the installation of the braking system and brake lines.

Specification (BOM): List of purchased items and materials indicating GOST/DIN.

Implementation Schedule (fixed budget 18,000 UAH):

Stage 1 (2 days): Analyzing the client's equipment drawings, calculating weight distribution, selecting the model of the torsion bar and coupling device.

Stage 2 (5 days): Creating a 3D assembly, checking for collisions, generating drawings.

Stage 3 (1 day): Compiling the final specification and preparing the explanatory note.

Total: Complete set of design documentation ready for transfer to production (laser cutting, welding, assembly).

To finalize the deal, provide a dimensional drawing or 3D model of the equipment that will be mounted on the platform.

Show original

Translate

Good day, I have been working as a design engineer for more than 6 years. I have experience in similar projects. Contact me - I will complete everything quickly and efficiently!

Show original

Translate