Industrial Design of Sany Heavy Articulated Tramcar

Author: Coated Core
Introduction: This topic is the industrial design of Sany heavy-duty articulated tramcar. Starting from market demand and following the requirements of Party A, it completes the industrial design of new products through a series of processes such as market research and analysis, conceptual scheme, preliminary design, in-depth design, perfect design, digital model construction and physical model production, and assists engineers in structural and process design. Specifically, first of all, I conducted a research and exploration on the concept of articulated cars, learned some knowledge points related to articulated tramcars, and learned about its benchmark products and other things. Then I conducted research and data collection on modeling language and corporate culture of some brands at home and abroad, including Sany, and came to relevant conclusions. Then I made a design exploration for the development of articulated trucks. Articulated tramcars are born for passability. The current products have been very passable under the premise of economic rationality. The future development direction should be to improve efficiency and simplify the structure. Therefore, there is still room for development of some new technologies. At the same time, I have also conducted research on some existing conceptualized products. By analyzing the attributes such as the modeling characteristics of which concept trucks, I have obtained relevant conclusions.
On top of these, I started my own concept truck innovation. Based on the research data and conclusions, I aim at the demand of articulated trucks for space size in mines. When the space size is limited, the existing handover trucks will not be able to function normally. Therefore, my plan is to combine VR technology to realize two-way driving of articulated mine car. Through VR real-time rendering simulation of the rear of the car and the viewing angle of the side of the car, the turning operation and the requirements on the terrain can be reduced, and the loading point and unloading point can be reached more quickly, thus improving the work efficiency. The specific operation is that when you need to drive in the opposite direction, click the button to enter the VR driving mode, the operating system will switch and change, the cab will turn to the rear, and the person and seat will also face the rear direction of travel, and then the VR glasses will pop up in the cab, and the driver can Wear it and enter the backward driving mode. At the same time, in order to reduce the gap between the driver's driving experience when driving forward and backward, the driver's chair will always be consistent with the direction of travel of the vehicle during driving backward, ensuring the real experience when using VR. Then, in addition to seeing the angle of view of the rear of the car in VR glasses, you can also actively choose to view the angle of view of other positions around you, just like a rearview mirror.
In terms of modeling, my overall design is relatively smooth. The front of the car adopts a wrapped split shell to reflect the sense of hierarchy. At the same time, the soft curve reduces the feeling of industry and is more modern. The color matching adopts the more traditional yellow and black color matching, which is bright and eye-catching. This is what my design description looks like.