The relationship between electromechanical Transmission control and other courses
1. Electro-mechanical transmission course and hydraulic and pneumatic transmission, mechanical principles of the course is closely linked, the two in the potential variables, flow variables are consistent, and many components are similar, such as hydraulic pump and generator, hydraulic cylinder and motor, hydraulic valve and relay contactor and other components of the main parameters and calculation formula is similar
Generalized variables |
Mechanical translation |
Mechanical rotation |
Hydraulic variable |
Potential variable E |
Force F |
Torque Tau |
Pressure P |
rheological amount F |
Speed V |
Angular velocity ω |
Flow Q |
Generalized Momentum P |
Momentum P |
Angular Momentum P |
Pressure Flow P |
Generalized displacement Q |
Displacement X |
Angle θ |
Volume V |
Power P |
F (v) v (t) |
Tau (t) ω (t) |
P (t) Q (t) |
2. In the study of various electrical components, such as generators, motors and relay contactor learning are related to the previous learning circuit principle, mode electricity, digital electricity and other basic courses, which is also the consolidation and deepening of electrical theory knowledge, and the basic circuit schematic in the electromechanical transmission course learning has been far from enough, The study and requirements of electrical drawing are greatly improved.
3. The study of this course and system dynamics learn from each other, the electromechanical drive system as one of the most important research systems of mechanical engineering is also bound to become the key object of modeling simulation in system dynamics, the learning of two courses interspersed with each other and has a focus on the overall ability of students to put forward higher requirements
The relationship between electromechanical Transmission control and other courses