diff --git a/source/car/car_mechanics.rst b/source/car/car_mechanics.rst index 8cbfcd4..62ee63c 100644 --- a/source/car/car_mechanics.rst +++ b/source/car/car_mechanics.rst @@ -128,6 +128,7 @@ FEA - Steering wheel * This simulation results are shown bellow: Total Deformation (mm) + .. figure:: /images/SDV/ME/SW_FEA_TotalDef.png :align: center :alt: car_picture @@ -136,6 +137,7 @@ Total Deformation (mm) :width: 300px Equivalent stress (MPa) + .. figure:: /images/SDV/ME/SW_FEA_Eqstress.png :align: center :alt: car_picture @@ -144,6 +146,7 @@ Equivalent stress (MPa) :width: 300px Equivalent elastic strain + .. figure:: /images/SDV/ME/SW_FEA_EqElastics.png :align: center :alt: car_picture @@ -152,6 +155,7 @@ Equivalent elastic strain :width: 300px Safety factor + .. figure:: /images/SDV/ME/SW_FEA_SF.png :align: center :alt: car_picture @@ -160,6 +164,8 @@ Safety factor :width: 300px Life + + .. figure:: /images/SDV/ME/SW_FEA_Life.png :align: center :alt: car_picture @@ -167,7 +173,9 @@ Life :height: 200px :width: 300px -Fatigue Safety Factor + +Fatigue Safety Factor + .. figure:: /images/SDV/ME/SW_FEA_FatSF.png :align: center :alt: car_picture @@ -180,6 +188,7 @@ Fatigue Safety Factor * Modal Analysis * There were 6 natural frequencies found when the motor was at 0 RPM and 6 when natural frequencies when the motor is 300 RPMs, which will be the used speeds + .. figure:: /images/SDV/ME/SW_FEA_ModalFreq.png :align: center :alt: car_picture @@ -189,7 +198,8 @@ Fatigue Safety Factor * This frequencies may represent a major problem because there is a group situated near 300Hz, this group of frequencies lay in the road noise, but the suspension and the plastic vibration reducers will aid mitigate these. * A frequency graphic widely used in automotive applications is shown bellow: - .. figure:: /images/SDV/ME/SW_FEA_freqGraph.png + +.. figure:: /images/SDV/ME/SW_FEA_freqGraph.png :align: center :alt: car_picture :figclass: align-center @@ -203,6 +213,7 @@ FEA - Braking Unit Equivalent stress * In the equivalent stress analysis, the major stress is concentrated in one of the ancle support holes, this stress generates only small deformations in that part that may not have a signifact effect in the actuator, an additional support is recommended in the corner od the motor in which there's none. + .. figure:: \images\SDV\ME\BU_FEA_SS.png :align: center :alt: car_picture @@ -212,6 +223,7 @@ Equivalent stress Total deformation + * In the total deformation analysis, the maximum deformation point is located in the corner in which ther'n no support. Dispite of that, this maximum point is only 0.12 mm, so this might not be significant as there will be another superior pice closing the actuator and acting as a cap. .. figure:: \images\SDV\ME\BU_FEA_TD.png :align: center @@ -223,6 +235,7 @@ Total deformation Security factor * With the existing stress calculated with this simulation, a maximum security factor of 15 and a minimum security factor of 0.276 were found. This minimum point was located in the corner of the wedge located between the shaft and the biggest gear, because there is a mayor existing torque, there will be a filet in those corners due to stress but it won't affect actuators performance. + .. figure:: \images\SDV\ME\BU_FEA_SF.png :align: center :alt: car_picture @@ -233,9 +246,119 @@ Security factor Fatigue (Lifes) * The actuatror was exposed to fatigue and the results were a maximum of 380,530,000 lifes (Equivalent to 380 moths) and a minimum of 21307 (Equivalent to 102 months). + .. figure:: \images\SDV\ME\BU_FEA_L.png :align: center :alt: car_picture :figclass: align-center :height: 200px :width: 300px + + +Car Torques and forces measurement +-------------------------- +This data represent the forces needed to move the different car systems that are intended to be moved electromechanically, This forces were measured with a dynamometer of a capacity of 100 kg, the measurements were created at different angles and distances, this distances and angles will be specified next: +Steering wheel +-------------------------- +The torque needed to move the direction system was measured and +5 kgf were needed to move this system without velocity which represents the most forced scenario due to friction and no moment of inertia. This force was measured at 18.25 cm from the center of the steering wheel which represents directly the point in which the sun of the direction actuator will be fixed. with this data the needed torque to move the cars direction was calculated: + +mo=5 kgf(0.1825m)(9.81m/s2)=8.95N +This result was multiplied by a security factor of 2 in order to assure a satisfactory performance considering different scenarios +8.95(2)=17.9Nm + +.. figure:: \images\SDV\ME\T_SW.png + :align: center + :alt: car_picture + :figclass: align-center + :height: 200px + :width: 300px + +The stepper motor selected for this actuator is an automation direct STP-MTRH-34127D which opperation behavior is shown below: + +.. figure:: \images\SDV\ME\steppergraph.png + :align: center + :alt: car_picture + :figclass: align-center + :height: 200px + :width: 300px + +In order to preserve motor integrity, the maximum torque considered for calculation will be 600 OZ-IN which is equivalent to 4.237 Nm. +Actuator +This direction actuator is conformed by a gearbox, a stepper motor and an encoder. +This gearbox is composed of the different gears: +Pinion:15 +Ring External:65 +Ring Internal:54 +Sun:34 + +.. figure:: \images\SDV\ME\SW_Render.png + :align: center + :alt: car_picture + :figclass: align-center + :height: 200px + :width: 300px + +The ratio in between the internal gear and the sun is given by: +5434=1.58:1 +The ratio in between the pinion and the external gear is given by: +6515=4.33:1 +If these ratios are combined as designed a final ratio of 6.877:1 is achieved + +.. figure:: \images\SDV\ME\SW_UV.png + :align: center + :alt: car_picture + :figclass: align-center + :height: 200px + :width: 300px + +This actuator will be firstly prototyped with PLA and 3D printing in order to observe the actuator behavior. It's intended to break, but it is planned this way in order to determine how these forces will interact in real life. +The next step is to manufacture this gears with nylamid whose friction coefficient is low, making the gearbox capable of rotating without having too much of a tear within the teeth. +As a final product, this actuator is thought to be manufactured with steel in order to achieve major durability, stiffness and power transmission, although this last option will depend on the behavior of nylamid in this system. + +.. figure:: \images\SDV\ME\SW_LV.png + :align: center + :alt: car_picture + :figclass: align-center + :height: 200px + :width: 300px + +After considering final transmission ratios, and giving the example of 4.24 Nm as an input, which is the value chosen from the stepper motor graphic, a final output of 28.83 Nm can be achieved which surpasses the requirement of 13.43Nm by a 114%. +Although the result may appear excessive, these gear dimensions were created in order to fulfill a dimension which was given by the external perimeter of the ring due to the nature of the car's geometry and the direction system positioning. + + +Braking system +-------------------------- + +* Required force to actuate the braking pedal to till the end: 10 kgf(9.81) =98.1N +* Transmition ratio: 48:1. therefore the force required bu the motor to actuate this pedal is given by 98.1/48=2.04N +* A distance of 80 mm shall be traveled in order to the the whole braking pedal path. If a 110mm pulley is implemented, only 0.23 turns will be needed in order to complete given path. +* The Nema 34 motor has an angular velocity of 675 RPM and a torque of 2.12Nm. This after the transmition ratio results in 101.688Nm given by the braking system. +If this angular velocity is used, it can be concluded that after the transmision ratio the last gear's angular velocity is equal to 14.06 RPM. +This angular velocity results in 0.98s in order to complete the given path succesfully. Given the car maximum programable velocity (10 km/h) the total stop time shall be lower than 0.98s + +.. figure:: \images\SDV\ME\BS_UV.png + :align: center + :alt: car_picture + :figclass: align-center + :height: 200px + :width: 300px + +A redesign was necesary in order to fulfill manufacturing processes used in this actuator in order to fulfill mechanical and technical requirements. + +.. figure:: \images\SDV\ME\BS_UV.png + :align: center + :alt: car_picture + :figclass: align-center + :height: 200px + :width: 300px + +The material used fpr this actuator are stell plates of 1/4" +In total, there will be 4 sets of gears, 2 with 10 teeth, 1 with 60 and the rest with 80 teeth. For the support of the gears, 2 shafts of 8mm of diameter will be used as well as wedges and shaft collars in order to secure a fixed position for the gears + +.. figure:: \images\SDV\ME\BS_UVC.png + :align: center + :alt: car_picture + :figclass: align-center + :height: 200px + :width: 300px \ No newline at end of file diff --git a/source/images/SDV/ME/BS_UV.png b/source/images/SDV/ME/BS_UV.png new file mode 100644 index 0000000..025bf83 Binary files /dev/null and b/source/images/SDV/ME/BS_UV.png differ diff --git a/source/images/SDV/ME/BS_UVC.png b/source/images/SDV/ME/BS_UVC.png new file mode 100644 index 0000000..79c1882 Binary files /dev/null and b/source/images/SDV/ME/BS_UVC.png differ diff --git a/source/images/SDV/ME/Bs_RE.png b/source/images/SDV/ME/Bs_RE.png new file mode 100644 index 0000000..42343b5 Binary files /dev/null and b/source/images/SDV/ME/Bs_RE.png differ diff --git a/source/images/SDV/ME/SW_LV.png b/source/images/SDV/ME/SW_LV.png new file mode 100644 index 0000000..0c0d627 Binary files /dev/null and b/source/images/SDV/ME/SW_LV.png differ diff --git a/source/images/SDV/ME/SW_Render.png b/source/images/SDV/ME/SW_Render.png new file mode 100644 index 0000000..05c28f4 Binary files /dev/null and b/source/images/SDV/ME/SW_Render.png differ diff --git a/source/images/SDV/ME/SW_UV.png b/source/images/SDV/ME/SW_UV.png new file mode 100644 index 0000000..458deb8 Binary files /dev/null and b/source/images/SDV/ME/SW_UV.png differ diff --git a/source/images/SDV/ME/T_SW.png b/source/images/SDV/ME/T_SW.png new file mode 100644 index 0000000..b95efe2 Binary files /dev/null and b/source/images/SDV/ME/T_SW.png differ diff --git a/source/images/SDV/ME/steppergraph.png b/source/images/SDV/ME/steppergraph.png new file mode 100644 index 0000000..675c8ba Binary files /dev/null and b/source/images/SDV/ME/steppergraph.png differ