Join Us_鸿灌环境技术有限公司

Job Responsibilities

1. Lead the structural scheme design of the cleaning system of unmanned sweepers, including the structural design and layout planning of core components such as roller brushes, side brushes, suction cups, garbage bins and spraying systems, and output structural design drawings, BOM lists and relevant technical documents.
2. Carry out the verification of the strength, stiffness and durability of the cleaning structure, use CAE simulation tools to optimize the structural design, and solve the balance problem between structural lightweight and reliability.
3. Responsible for the integration and matching design of the cleaning structure with the chassis, body, autonomous driving sensors and actuators, and coordinate to solve problems such as structural interference and installation adaptation.
4. Cooperate with the supply chain department to carry out component selection, supplier development and technical docking of the cleaning system, participate in the verification and acceptance of component samples, and ensure that the component quality meets the design requirements.
5. Track the trial production and testing process of unmanned sweepers, solve the trial production and testing problems related to the cleaning structure, participate in product iteration optimization, and continuously improve the cleaning performance and structural reliability.
6. Understand the technical trends and relevant standards of the sweeper industry, introduce advanced structural design concepts and process methods, optimize the cleaning system structural scheme, and reduce production costs.

Job Requirements

1. Bachelor’s degree or above in Mechanical Design, Manufacturing and Automation, Vehicle Engineering, Mechatronic Engineering and other related majors, master’s degree is preferred.
2. More than 5 years of experience in structural design of cleaning systems for sanitation sweepers or special vehicles, preferably with experience in structural design of unmanned equipment. Familiar with the working principle and structural characteristics of the cleaning system of sweepers, master the mechanical structure design process, material selection and process requirements, and understand relevant industry standards.
3. Proficient in mechanical structure design methods, proficient in using 3D design software such as CATIA and UG and CAE simulation tools such as ANSYS and Abaqus, and can independently complete structural scheme design, drawing output and simulation analysis.
4. Have solid knowledge of mechanical principles, material mechanics and structural mechanics, and can carry out the verification and optimization of structural strength, stiffness and durability.
5. Familiar with the structural design and process requirements of core components of the cleaning system (roller brushes, suction cups, etc.), and have the ability to solve problems in structural design and integration matching.
6. Understand the working condition characteristics of unmanned sweepers, and be familiar with the adaptation requirements of structures and unmanned control systems is preferred.

Job Responsibilities

1. Responsible for the requirement analysis, scheme formulation and review of the electrical system.
2. Responsible for the detailed design and development of the electrical system of intelligent sanitation equipment, including electrical component selection, schematic diagram construction, wiring harness diagram design, etc.
3. Responsible for drawing drawing and writing relevant technical documents.
4. Cooperate closely with the production department to carry out trial production and debugging of new products, and solve technical problems encountered in the production process. Solve relevant design problems encountered by users during use.
5. Coordinate technical communication and cooperation with other departments.

Job Requirements

1. Bachelor’s degree or above in Electrical Engineering and Automation and other related majors.
2. Have more than 5 years of relevant work experience in automotive electrical design, preferably with autonomous driving related experience.
3. Familiar with the design process and standard specifications of automotive electrical systems.
4. Proficient in using drawing software such as CAD and CATIA.
5. Have good team spirit and communication skills.
6. Possess a strong sense of responsibility and problem-solving ability.
7. Understand the development trend of the automotive industry, and have good career planning and development potential.

Job Responsibilities

1. Responsible for the detailed design and development of the electrical system of intelligent sanitation equipment, including electrical component selection, schematic diagram construction, wiring harness diagram design, etc.
2. Responsible for drawing drawing and writing relevant technical documents.
3. Cooperate closely with the production department to carry out trial production and debugging of new products, and solve technical problems encountered in the production process. Solve relevant design problems encountered by users during use.
4. Coordinate technical communication and cooperation with other departments.

Job Requirements

1. Bachelor’s degree or above in Electrical Engineering and Automation and other related majors.
2. Have more than 3 years of relevant work experience in automotive electrical design.
3. Familiar with the design process and standard specifications of automotive electrical systems.
4. Proficient in using drawing software such as CAD and CATIA.
5. Have good team spirit and communication skills.
6. Possess a strong sense of responsibility and problem-solving ability.
7. Understand the development trend of the automotive industry, and have good career planning and development potential.

Job Responsibilities

1. Lead the chassis system scheme design of unmanned sanitation vehicles, including the selection and layout planning of core components such as drive axles, steering systems, suspension systems, braking systems and transmission systems, and output chassis design schemes and relevant technical documents.
2. Overall coordinate the integration and matching work between various chassis systems, solve the interference problems between chassis components and the body, operation system, autonomous driving sensors, etc., and optimize the chassis dynamic performance.
3. Participate in the formulation of overall performance indicators of unmanned sanitation vehicles, carry out chassis-related performance verification (such as load capacity, driving stability, braking performance, steering flexibility, etc.), and ensure that the chassis performance meets the standards.
4. Cooperate with the supply chain and production departments to carry out chassis component selection, supplier development and management, carry out process feasibility analysis, promote the mass production implementation of the chassis scheme, and solve chassis-related problems in the production process.
5. Track the technical trends and relevant regulatory requirements of the unmanned sanitation vehicle chassis industry, continuously optimize the chassis scheme, and enhance product competitiveness. Collaborate with the R&D and testing teams to complete chassis trial production, testing and verification work, and solve technical problems arising in the test.

Job Requirements

1. Bachelor’s degree or above in Vehicle Engineering, Mechanical Design, Manufacturing and Automation, Mechatronic Engineering and other related majors, master’s degree is preferred.
2. More than 5 years of experience in chassis design and development of commercial vehicles (sanitation vehicles, light trucks, medium trucks, etc.), preferably with experience in chassis of unmanned vehicles or intelligent connected vehicles. Familiar with commercial vehicle chassis structure design and performance verification processes, understand the adaptation requirements of unmanned operation for chassis systems, and master relevant industry regulations and standards.
3. Proficient in commercial vehicle chassis design methods, proficient in using 3D design software such as CATIA and UG and CAE simulation analysis tools, and can independently complete chassis scheme design, drawing output and performance simulation.
4. Have solid professional knowledge of vehicle engineering, master core technologies such as chassis dynamics, braking systems, steering systems and suspension systems, and can carry out chassis-related performance verification and optimization.
5. Possess excellent problem-solving ability, can effectively coordinate cross-departmental resources, and solve complex technical problems in the process of chassis design, integration and mass production.
6. Have good communication and coordination skills, team spirit and cost awareness, preferably with experience in the implementation of mass production commercial vehicle chassis design.
7. Understand the working condition characteristics of unmanned sanitation vehicles, be familiar with the adaptation requirements of chassis and autonomous driving control systems, and have experience in chassis electronic control system design is preferred.

Job Responsibilities

1. Participate in the chassis system scheme design of unmanned sanitation vehicles, including the selection and layout planning of core components such as drive axles, steering systems, suspension systems, braking systems and transmission systems, and output chassis design schemes and relevant technical documents.
2. Overall coordinate the integration and matching work between various chassis systems, solve the interference problems between chassis components and the body, operation system, autonomous driving sensors, etc., and optimize the chassis dynamic performance.
3. Participate in the formulation of overall performance indicators of unmanned sanitation vehicles, carry out chassis-related performance verification (such as load capacity, driving stability, braking performance, steering flexibility, etc.), and ensure that the chassis performance meets the standards.
4. Cooperate with the supply chain and production departments to carry out chassis component selection, supplier development and management, carry out process feasibility analysis, promote the mass production implementation of the chassis scheme, and solve chassis-related problems in the production process.
5. Track the technical trends and relevant regulatory requirements of the unmanned sanitation vehicle chassis industry, continuously optimize the chassis scheme, and enhance product competitiveness. Collaborate with the R&D and testing teams to complete chassis trial production, testing and verification work, and solve technical problems arising in the test.

Job Requirements

1. Bachelor’s degree or above in Vehicle Engineering, Mechanical Design, Manufacturing and Automation, Mechatronic Engineering and other related majors, master’s degree is preferred.
2. More than 3 years of experience in chassis design and development of commercial vehicles (sanitation vehicles, light trucks, medium trucks, etc.), preferably with experience in chassis of unmanned vehicles or intelligent connected vehicles. Familiar with commercial vehicle chassis structure design and performance verification processes, understand the adaptation requirements of unmanned operation for chassis systems, and master relevant industry regulations and standards.
3. Proficient in commercial vehicle chassis design methods, proficient in using 3D design software such as CATIA and UG and CAE simulation analysis tools, and can independently complete chassis scheme design, drawing output and performance simulation.
4. Have solid professional knowledge of vehicle engineering, master core technologies such as chassis dynamics, braking systems, steering systems and suspension systems, and can carry out chassis-related performance verification and optimization.
5. Possess excellent problem-solving ability, can effectively coordinate cross-departmental resources, and solve complex technical problems in the process of chassis design, integration and mass production.
6. Have good communication and coordination skills, team spirit and cost awareness, preferably with experience in the implementation of mass production commercial vehicle chassis design.
7. Understand the working condition characteristics of unmanned sanitation vehicles, be familiar with the adaptation requirements of chassis and autonomous driving control systems, and have experience in chassis electronic control system design is preferred.