R&D Process

Our team members had valuable and outstanding capabilities in their own industry who had professional experience, but we needed teamwork training and more experience to design a set of practical and professional robots in the marine rescue industry. Below you can see a part of the process of reaching the ideal design in our amazing team

The improved sample will be displayed on the site soon

Type9: MICRO robot type1

In this section, After evaluating the test of the robot on the surface of the water, the group concluded that the overall system for portability and launch should be changed to a capsule form, and the propulsion system and even the movement control should be placed in the lower part of the design so that the balance of the robot does not change during movement. In addition, the activation system should be changed from sensor mode to electric mode and remote controlly.
Abbas Rahmani
CEO

Performance of hybrid inflating of MICRO robot type 1

balance and Speed test performance of MICRO robot

balance and Speed test performance of MICRO robot

Type8: Add auto/m activator

In this section, we entered a new stage because the design team succeeded in training the advanced design software called Solidwork, and after that, it became more capable to depict mental designs and reduce shell prototyping costs. The sample made at this stage was very successful for testing the way the product is placed on the surface of the water, its buoyancy and testing its thrust system in parts of Europe such as Germany, France, Italy, Austria, etc. on the surface of river or sea water and some ports.
Abbas Rahmani
CEO

Berlin

HAMBURG

Paris

Milan

Vien

#naviglio_pavese #milan #italy #ESCORAFT #Lifesaving_Robot #lifeguard #sea_rescue #startup

#Seine_river #eiffel_tower #ESCORAFT #Lifesaving_Robot

#danube_home river #vienna #donna #vienna #ESCORAFT #LIFEGUARD #Lifesaving_Robot

Type7: Add an inflatable shell

In the third stage, an attempt was made to use a hull bent by PVC plates and an inflatable body as a rescue system and robot body. It still had disadvantages in terms of appearance and performance
Abbas Rahmani
CEO

After many evaluations and different designs, the group concluded that The inflatable body of the system should be designed in a separate section and finally, the final product will be changed into a simple and portable form.

Type6: Design rimaran hull shape to increase speed

At this stage, the design of the robot shell was the main goal of the team because the shape of the robot and how it is used are very important in the real and professional performance. We Investigated the positioning of the rescuer inside the torpedo shape robots
Abbas Rahmani
CEO

Type5: Design torpedo shape to release rescue module

At this stage, the design of the robot shell was the main goal of the team because the shape of the robot and how it is used are very important in the real and professional performance. We Investigated the positioning of the rescuer inside the torpedo shape robots
Abbas Rahmani
CEO

This is an improved example of the above design, the shape of the body and the position of the engines have undergone changes to improve performance.

This is an another example of the above design, the shape of the body and the position of the engines have undergone changes to improve performance.

Type4: Design twin motor in kick board shape

At this stage, We Investigated the positioning of the rescuer inside the kick board shape robots
Abbas Rahmani
CEO

Type3: Design foldable shell with jet engine

At this stage, We Investigated on folding shape for thruster and activator to decrease final size of the robot. In addtion, we investigated adding waterjet thruster with 1 motor instead two motor on thruster to decrease the size of robot.​
Abbas Rahmani
CEO

” Transformation in the robot with diverse shell design to reach the most practical form of the robot “

Type2: Improvement initial idea

In the second stage, the design underwent more changes, and in this stage, the necessary positioning for the propulsion system with brushless motors and an inflatable rescue system was considered, but the problem of designing a more professional shell was still there.
Abbas Rahmani
CEO

Type1: The initial idea

Our initial design was on SketchUp software and product prototyping using a propulsion system with brush motors and a small rescue system for short distances. Although this initial idea led to the formation of a group to make a more professional product but it had special disadvantages such as not designing a specific mechanism to release the rescue system and lack of knowledge on body design.
Abbas Rahmani
CEO

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