#----------------------------------------------------------------------------- # [Data Block] begin: data; problem: initial value; end: data; #----------------------------------------------------------------------------- # [Problem Block] begin: initial value; initial time: 0.0; final time: 4.0; time step: 0.01; max iterations: 100; tolerance: 1e-06; derivatives tolerance: 0.0001; derivatives max iterations: 100; derivatives coefficient: auto; end: initial value; #----------------------------------------------------------------------------- # [Control Data Block] begin: control data; max iterations: 1000; default orientation: orientation matrix; omega rotates: no; print: none; initial stiffness: 1.0, 1.0; structural nodes: 10; rigid bodies: 8; joints: 15; end: control data; #----------------------------------------------------------------------------- # [Design Variables] #Generic bodies #body: 2 set: integer body_2 = 2; #body label set: real mass_2 = 2.978229835603125; #mass [kg] set: real volume_2 = 0.0003769911184307753; #volume [m^3] #body: 3 set: integer body_3 = 3; #body label set: real mass_3 = 2.588134615720142; #mass [kg] set: real volume_3 = 0.0003276119766734357; #volume [m^3] #body: 4 set: integer body_4 = 4; #body label set: real mass_4 = 1.1703392124151422; #mass [kg] set: real volume_4 = 0.00014814420410318253; #volume [m^3] #body: 5 set: integer body_5 = 5; #body label set: real mass_5 = 2.9782298356031247; #mass [kg] set: real volume_5 = 0.00037699111843077525; #volume [m^3] #body: 6 set: integer body_6 = 6; #body label set: real mass_6 = 2.6433540328793748; #mass [kg] set: real volume_6 = 0.0003346017763138449; #volume [m^3] #body: 7 set: integer body_7 = 7; #body label set: real mass_7 = 2.6411631689303903; #mass [kg] set: real volume_7 = 0.0003343244517633405; #volume [m^3] #body: 8 set: integer body_8 = 8; #body label set: real mass_8 = 2.6433540328793748; #mass [kg] set: real volume_8 = 0.0003346017763138449; #volume [m^3] #body: 9 set: integer body_9 = 9; #body label set: real mass_9 = 2.978229835603125; #mass [kg] set: real volume_9 = 0.0003769911184307753; #volume [m^3] #Nodes #node: 1 set: integer structural_node_1 = 1; #node label #node: 2 set: integer structural_node_2 = 2; #node label #node: 3 set: integer structural_node_3 = 3; #node label #node: 4 set: integer structural_node_4 = 4; #node label #node: 5 set: integer structural_node_5 = 5; #node label #node: 6 set: integer structural_node_6 = 6; #node label #node: 7 set: integer structural_node_7 = 7; #node label #node: 8 set: integer structural_node_8 = 8; #node label #node: 9 set: integer structural_node_9 = 9; #node label #node: 10 set: integer structural_node_10 = 10; #node label #Joints #joint: 1 set: integer joint_1 = 1; #joint label #joint: 2_3 set: integer joint_2 = 2; #joint label set: integer joint_3 = 3; #joint label #joint: 4_5 set: integer joint_4 = 4; #joint label set: integer joint_5 = 5; #joint label #joint: 6 set: integer joint_6 = 6; #joint label #joint: 7_8_9 set: integer joint_7 = 7; #joint label set: integer joint_8 = 8; #joint label set: integer joint_9 = 9; #joint label #joint: 12_13 set: integer joint_12 = 12; #joint label set: integer joint_13 = 13; #joint label #joint: 14_15 set: integer joint_14 = 14; #joint label set: integer joint_15 = 15; #joint label #joint: 16_17 set: integer joint_16 = 16; #joint label set: integer joint_17 = 17; #joint label #joint: 18 set: integer joint_18 = 18; #joint label #joint: 19_20 set: integer joint_19 = 19; #joint label set: integer joint_20 = 20; #joint label #joint: 21_22 set: integer joint_21 = 21; #joint label set: integer joint_22 = 22; #joint label #Nodes: initial conditions #node: 1 set: real Px_1 = -0.07783416000000026; #X component of the absolute position [m] set: real Py_1 = 0.004000000000000017; #Y component of the absolute position [m] set: real Pz_1 = -0.17832060000000008; #Z component of the absolute position [m] set: real Vx_1 = 0.0; #X component of the absolute velocity [m/s] set: real Vy_1 = 0.0; #Y component of the absolute velocity [m/s] set: real Vz_1 = 0.0; #Z component of the absolute velocity [m/s] set: real Wx_1 = 0.0; #X component of the absolute angular velocity [rad/s] set: real Wy_1 = 0.0; #Y component of the absolute angular velocity [rad/s] set: real Wz_1 = 0.0; #Z component of the absolute angular velocity [rad/s] #node: 2 set: real Px_2 = -0.07783416099836238; #X component of the absolute position [m] set: real Py_2 = 0.003999999996809766; #Y component of the absolute position [m] set: real Pz_2 = -0.17832060017325177; #Z component of the absolute position [m] set: real Vx_2 = 0.0; #X component of the absolute velocity [m/s] set: real Vy_2 = 0.0; #Y component of the absolute velocity [m/s] set: real Vz_2 = 0.0; #Z component of the absolute velocity [m/s] set: real Wx_2 = 0.0; #X component of the absolute angular velocity [rad/s] set: real Wy_2 = 0.0; #Y component of the absolute angular velocity [rad/s] set: real Wz_2 = 0.0; #Z component of the absolute angular velocity [rad/s] #node: 3 set: real Px_3 = -0.1623578015932916; #X component of the absolute position [m] set: real Py_3 = 0.003999999315223945; #Y component of the absolute position [m] set: real Pz_3 = -0.3595821023052435; #Z component of the absolute position [m] set: real Vx_3 = 0.0; #X component of the absolute velocity [m/s] set: real Vy_3 = 0.0; #Y component of the absolute velocity [m/s] set: real Vz_3 = 0.0; #Z component of the absolute velocity [m/s] set: real Wx_3 = 0.0; #X component of the absolute angular velocity [rad/s] set: real Wy_3 = 0.0; #Y component of the absolute angular velocity [rad/s] set: real Wz_3 = 0.0; #Z component of the absolute angular velocity [rad/s] #node: 4 set: real Px_4 = -0.3774260000000018; #X component of the absolute position [m] set: real Py_4 = 0.0051113240000002945; #Y component of the absolute position [m] set: real Pz_4 = -0.347564400000001; #Z component of the absolute position [m] set: real Vx_4 = 0.0; #X component of the absolute velocity [m/s] set: real Vy_4 = 0.0; #Y component of the absolute velocity [m/s] set: real Vz_4 = 0.0; #Z component of the absolute velocity [m/s] set: real Wx_4 = 0.0; #X component of the absolute angular velocity [rad/s] set: real Wy_4 = 0.0; #Y component of the absolute angular velocity [rad/s] set: real Wz_4 = 0.0; #Z component of the absolute angular velocity [rad/s] #node: 5 set: real Px_5 = -0.3351868564816247; #X component of the absolute position [m] set: real Py_5 = 0.004141981016983607; #Y component of the absolute position [m] set: real Pz_5 = -1.0431822332692882; #Z component of the absolute position [m] set: real Vx_5 = 0.0; #X component of the absolute velocity [m/s] set: real Vy_5 = 0.0; #Y component of the absolute velocity [m/s] set: real Vz_5 = 0.0; #Z component of the absolute velocity [m/s] set: real Wx_5 = 0.0; #X component of the absolute angular velocity [rad/s] set: real Wy_5 = 0.0; #Y component of the absolute angular velocity [rad/s] set: real Wz_5 = 0.0; #Z component of the absolute angular velocity [rad/s] #node: 6 set: real Px_6 = -0.3290883999648427; #X component of the absolute position [m] set: real Py_6 = 0.0789998699933408; #Y component of the absolute position [m] set: real Pz_6 = -1.1681069999111064; #Z component of the absolute position [m] set: real Vx_6 = 0.0; #X component of the absolute velocity [m/s] set: real Vy_6 = 0.0; #Y component of the absolute velocity [m/s] set: real Vz_6 = 0.0; #Z component of the absolute velocity [m/s] set: real Wx_6 = 0.0; #X component of the absolute angular velocity [rad/s] set: real Wy_6 = 0.0; #Y component of the absolute angular velocity [rad/s] set: real Wz_6 = 0.0; #Z component of the absolute angular velocity [rad/s] #node: 7 set: real Px_7 = -0.25400010003843715; #X component of the absolute position [m] set: real Py_7 = 0.004088427999796447; #Y component of the absolute position [m] set: real Pz_7 = -1.1680000001111455; #Z component of the absolute position [m] set: real Vx_7 = 0.0; #X component of the absolute velocity [m/s] set: real Vy_7 = 0.0; #Y component of the absolute velocity [m/s] set: real Vz_7 = 0.0; #Z component of the absolute velocity [m/s] set: real Wx_7 = 0.0; #X component of the absolute angular velocity [rad/s] set: real Wy_7 = 0.0; #Y component of the absolute angular velocity [rad/s] set: real Wz_7 = 0.0; #Z component of the absolute angular velocity [rad/s] #node: 8 set: real Px_8 = -0.3290000000000001; #X component of the absolute position [m] set: real Py_8 = 0.004; #Y component of the absolute position [m] set: real Pz_8 = -1.273; #Z component of the absolute position [m] set: real Vx_8 = 0.0; #X component of the absolute velocity [m/s] set: real Vy_8 = 0.0; #Y component of the absolute velocity [m/s] set: real Vz_8 = 0.0; #Z component of the absolute velocity [m/s] set: real Wx_8 = 0.0; #X component of the absolute angular velocity [rad/s] set: real Wy_8 = 0.0; #Y component of the absolute angular velocity [rad/s] set: real Wz_8 = 0.0; #Z component of the absolute angular velocity [rad/s] #node: 9 set: real Px_9 = -0.32900000000000007; #X component of the absolute position [m] set: real Py_9 = 0.004000000000000001; #Y component of the absolute position [m] set: real Pz_9 = -1.4730000000000003; #Z component of the absolute position [m] set: real Vx_9 = 0.0; #X component of the absolute velocity [m/s] set: real Vy_9 = 0.0; #Y component of the absolute velocity [m/s] set: real Vz_9 = 0.0; #Z component of the absolute velocity [m/s] set: real Wx_9 = 0.0; #X component of the absolute angular velocity [rad/s] set: real Wy_9 = 0.0; #Y component of the absolute angular velocity [rad/s] set: real Wz_9 = 0.0; #Z component of the absolute angular velocity [rad/s] #node: 10 set: real Px_10 = -0.329; #X component of the absolute position [m] set: real Py_10 = 0.004; #Y component of the absolute position [m] set: real Pz_10 = -1.473; #Z component of the absolute position [m] set: real Vx_10 = 0.0; #X component of the absolute velocity [m/s] set: real Vy_10 = 0.0; #Y component of the absolute velocity [m/s] set: real Vz_10 = 0.0; #Z component of the absolute velocity [m/s] set: real Wx_10 = 0.0; #X component of the absolute angular velocity [rad/s] set: real Wy_10 = 0.0; #Y component of the absolute angular velocity [rad/s] set: real Wz_10 = 0.0; #Z component of the absolute angular velocity [rad/s] #----------------------------------------------------------------------------- # [Intermediate Variables] #Moments of inertia and relative center of mass #body 2: set: real Ixx_2 = 0.040082009870845; #moment of inertia [kg*m^2] set: real Iyy_2 = 0.040082009870845; #moment of inertia [kg*m^2] set: real Izz_2 = 0.0007445574589190001; #moment of inertia [kg*m^2] set: real Rx_2 = 0.004999996385997411; #X component of the relative center of mass [m] set: real Ry_2 = 0.1205597414584092; #Y component of the relative center of mass [m] set: real Rz_2 = -0.13592680593549666; #Z component of the relative center of mass [m] #body 3: set: real Ixx_3 = 0.024389786154885; #moment of inertia [kg*m^2] set: real Iyy_3 = 0.023044218207903002; #moment of inertia [kg*m^2] set: real Izz_3 = 0.0026456642607380005; #moment of inertia [kg*m^2] set: real Rx_3 = -0.09199998799213414; #X component of the relative center of mass [m] set: real Ry_3 = 0.18852863696782032; #Y component of the relative center of mass [m] set: real Rz_3 = 0.0197964064628884; #Z component of the relative center of mass [m] #body 4: set: real Ixx_4 = 0.018472555043878; #moment of inertia [kg*m^2] set: real Iyy_4 = 0.018472555043878; #moment of inertia [kg*m^2] set: real Izz_4 = 0.000232194477874; #moment of inertia [kg*m^2] set: real Rx_4 = -0.1305739999999983; #X component of the relative center of mass [m] set: real Ry_4 = 0.08288867599999981; #Y component of the relative center of mass [m] set: real Rz_4 = -0.057501651596334566; #Z component of the relative center of mass [m] #body 5: set: real Ixx_5 = 0.040082009870845; #moment of inertia [kg*m^2] set: real Iyy_5 = 0.040082009870845; #moment of inertia [kg*m^2] set: real Izz_5 = 0.0007445574589190001; #moment of inertia [kg*m^2] set: real Rx_5 = 0.006834112138545638; #X component of the relative center of mass [m] set: real Ry_5 = -0.04601302782700924; #Y component of the relative center of mass [m] set: real Rz_5 = 0.4707123913694984; #Z component of the relative center of mass [m] #body 6: set: real Ixx_6 = 0.014001696547797999; #moment of inertia [kg*m^2] set: real Iyy_6 = 0.009872891153302001; #moment of inertia [kg*m^2] set: real Izz_6 = 0.0053592595344360006; #moment of inertia [kg*m^2] set: real Rx_6 = -0.11400466480286309; #X component of the relative center of mass [m] set: real Ry_6 = 0.2899920088958115; #Y component of the relative center of mass [m] set: real Rz_6 = 0.07927857952755618; #Z component of the relative center of mass [m] #body 7: set: real Ixx_7 = 0.005810096369772; #moment of inertia [kg*m^2] set: real Iyy_7 = 0.0031759058351150007; #moment of inertia [kg*m^2] set: real Izz_7 = 0.0031759058351150007; #moment of inertia [kg*m^2] set: real Rx_7 = 0.003864408418240226; #X component of the relative center of mass [m] set: real Ry_7 = 0.10100000009125211; #Y component of the relative center of mass [m] set: real Rz_7 = 0.19000458831433167; #Z component of the relative center of mass [m] #body 8: set: real Ixx_8 = 0.014001696547797999; #moment of inertia [kg*m^2] set: real Iyy_8 = 0.009872891153302001; #moment of inertia [kg*m^2] set: real Izz_8 = 0.0053592595344360006; #moment of inertia [kg*m^2] set: real Rx_8 = -0.10900000000000006; #X component of the relative center of mass [m] set: real Ry_8 = -0.002999999999999985; #Y component of the relative center of mass [m] set: real Rz_8 = 0.029002381005074084; #Z component of the relative center of mass [m] #body 9: set: real Ixx_9 = 0.040082009870845; #moment of inertia [kg*m^2] set: real Iyy_9 = 0.040082009870845; #moment of inertia [kg*m^2] set: real Izz_9 = 0.0007445574589190001; #moment of inertia [kg*m^2] set: real Rx_9 = -0.10299999999999983; #X component of the relative center of mass [m] set: real Ry_9 = -0.005000000000000004; #Y component of the relative center of mass [m] set: real Rz_9 = -0.041999999999999545; #Z component of the relative center of mass [m] #----------------------------------------------------------------------------- # [Nodes Block] begin: nodes; structural: structural_node_1, static, Px_1, Py_1, Pz_1, # [m] 3, -0.4226182882013998, -2.7755575615628914e-17, -0.9063077746978225, 2, -0.9063077746978224, -2.220446049250313e-16, 0.4226182882013998, # Vx_1, Vy_1, Vz_1, # [m/s] Wx_1, Wy_1, Wz_1; # [rad/s] structural: structural_node_2, dynamic, Px_2, Py_2, Pz_2, # [m] 3, -0.42261825908564954, -2.9448519067720724e-08, -0.9063077882747201, 2, -0.9063077882747177, -6.315255363098515e-08, 0.4226182590856506, # Vx_2, Vy_2, Vz_2, # [m/s] Wx_2, Wy_2, Wz_2; # [rad/s] structural: structural_node_3, dynamic, Px_3, Py_3, Pz_3, # [m] 3, 0.42261825908564965, 2.9448519067720724e-08, 0.9063077882747196, 2, -0.9063077882747174, -6.315255363098515e-08, 0.42261825908565065, # Vx_3, Vy_3, Vz_3, # [m/s] Wx_3, Wy_3, Wz_3; # [rad/s] structural: structural_node_4, dynamic, Px_4, Py_4, Pz_4, # [m] 3, 0.0, 0.0, 1.0, 2, 0.0, 1.0, 0.0, # Vx_4, Vy_4, Vz_4, # [m/s] Wx_4, Wy_4, Wz_4; # [rad/s] structural: structural_node_5, dynamic, Px_5, Py_5, Pz_5, # [m] 3, -0.058922175918830574, 0.0013521991508192235, 0.9982616634642677, 2, 0.997998898981574, -0.02290297740498337, 0.05893768961838506, # Vx_5, Vy_5, Vz_5, # [m/s] Wx_5, Wy_5, Wz_5; # [rad/s] structural: structural_node_6, dynamic, Px_6, Py_6, Pz_6, # [m] 3, 0.0011790380091409901, -0.9999982908405949, 0.0014241436943254193, 2, -1.6791212488734449e-06, 0.0014241427044502375, 0.9999989859068548, # Vx_6, Vy_6, Vz_6, # [m/s] Wx_6, Wy_6, Wz_6; # [rad/s] structural: structural_node_7, dynamic, Px_7, Py_7, Pz_7, # [m] 3, -0.9999993049367035, -0.001179036093641228, 1.0471146172363888e-10, 2, 1.0471157274594134e-10, 1.2323475573339238e-13, 1.0000000000000002, # Vx_7, Vy_7, Vz_7, # [m/s] Wx_7, Wy_7, Wz_7; # [rad/s] structural: structural_node_8, dynamic, Px_8, Py_8, Pz_8, # [m] 3, 0.0, 0.0, 1.0, 2, 0.0, 1.0, 0.0, # Vx_8, Vy_8, Vz_8, # [m/s] Wx_8, Wy_8, Wz_8; # [rad/s] structural: structural_node_9, dynamic, Px_9, Py_9, Pz_9, # [m] 3, 0.0, -3.9968028886505634e-17, 1.0, 2, 0.0, 1.0, 3.9968028886505634e-17, # Vx_9, Vy_9, Vz_9, # [m/s] Wx_9, Wy_9, Wz_9; # [rad/s] structural: structural_node_10, static, Px_10, Py_10, Pz_10, # [m] 3, 0.0, -3.552713678800501e-17, 1.0, 2, 0.0, 1.0, 3.552713678800501e-17, # Vx_10, Vy_10, Vz_10, # [m/s] Wx_10, Wy_10, Wz_10; # [rad/s] end: nodes; #----------------------------------------------------------------------------- # [Elements Block] begin: elements; #----------------------------------------------------------------------------- # [Bodies] body: body_2, structural_node_2, # mass_2, # [kg] Rx_2, Ry_2, Rz_2, # [m] diag, Ixx_2, Iyy_2, Izz_2, # [kg*m^2] orientation, 3, 3.7627811787024905e-08, -0.13440686803640117, -0.9895124020570147, 2, -0.019999941467848125, -0.9895124033200648, 0.13440686744743258; body: body_3, structural_node_3, # mass_3, # [kg] Rx_3, Ry_3, Rz_3, # [m] diag, Ixx_3, Iyy_3, Izz_3, # [kg*m^2] orientation, 3, -6.968113306842633e-08, -0.9147601534564302, 0.4044921033201552, 2, -1.3936225763330756e-09, 0.4044921033201563, 0.9147601534564325; body: body_4, structural_node_4, # mass_4, # [kg] Rx_4, Ry_4, Rz_4, # [m] diag, Ixx_4, Iyy_4, Izz_4, # [kg*m^2] orientation, 3, 0.0, 0.0, 1.0, 2, 1.0, 0.0, 0.0; body: body_5, structural_node_5, # mass_5, # [kg] Rx_5, Ry_5, Rz_5, # [m] diag, Ixx_5, Iyy_5, Izz_5, # [kg*m^2] orientation, 3, -2.7755575615628914e-17, 0.058937689618385136, 0.9982616634642679, 2, -0.9997367779487975, -0.02290297740498341, 0.0013521991508192467; body: body_6, structural_node_6, # mass_6, # [kg] Rx_6, Ry_6, Rz_6, # [m] diag, Ixx_6, Iyy_6, Izz_6, # [kg*m^2] orientation, 3, 0.0011790392047965658, 0.0014241427044501846, -0.999998290840595, 2, 5.551115123125783e-17, 0.9999989859068549, 0.0014241436943254748; body: body_7, structural_node_7, # mass_7, # [kg] Rx_7, Ry_7, Rz_7, # [m] diag, Ixx_7, Iyy_7, Izz_7, # [kg*m^2] orientation, 3, -0.709162390878574, 7.443270238366723e-11, -0.7108366221315445, 2, 0.7108366221315445, 7.425747000768528e-11, -0.7091623908785742; body: body_8, structural_node_8, # mass_8, # [kg] Rx_8, Ry_8, Rz_8, # [m] diag, Ixx_8, Iyy_8, Izz_8, # [kg*m^2] orientation, 3, 1.0, 0.0, 0.0, 2, 0.0, 0.0, 1.0; body: body_9, structural_node_9, # mass_9, # [kg] Rx_9, Ry_9, Rz_9, # [m] diag, Ixx_9, Iyy_9, Izz_9, # [kg*m^2] orientation, 3, -2.7755575615628914e-17, 3.9898639947466563e-17, 1.0, 2, 1.5407439555097887e-33, 1.0, -3.9968028886505634e-17; #----------------------------------------------------------------------------- # [Joints] joint: joint_1, clamp, structural_node_1, # -0.07783416000000026, 0.004000000000000017, -0.17832060000000008, # [m] 3, -0.4226182882013998, -2.7755575615628914e-17, -0.9063077746978225, 2, -0.9063077746978224, -2.220446049250313e-16, 0.4226182882013998; # joint: joint_2, axial rotation, structural_node_2, # position, 0.0, 0.0, 0.0, # [m] orientation, 3, 2.7755575615628907e-17, 6.740754805355322e-34, 1.0, 2, -4.8572257327350586e-17, 1.0, 6.740754805355322e-34, # structural_node_1, # position, 0.0, 0.0, 0.0, # [m] orientation, 3, 0.0, 0.0, 1.0, 2, 0.0, 1.0, 0.0, # string, "model::drive(1, Time)"; # [rad/s] joint: joint_4, prismatic, structural_node_2, # orientation, 3, -2.220446049250313e-16, -1.665334536937734e-16, -1.0, 2, 4.926614671774131e-16, 1.0, -1.665334536937735e-16, #relative_orientation_matrix_1> structural_node_3, # orientation, 3, 0.0, 0.0, 1.0, 2, 0.0, 1.0, 0.0; #relative_orientation_matrix_2> joint: joint_5, spherical hinge, structural_node_2, # 7.993605777301126e-18, -2.842170943040401e-17, 0.20000000000000004, # [m] structural_node_3, # 0.0, 0.0, 0.0; # [m] joint: joint_6, spherical hinge, structural_node_3, # 0.0011113412974166784, 0.19999691227746655, -0.08000000000000006, # [m] structural_node_4, # 0.0, 0.0, 0.0; # [m] joint: joint_7, in line, structural_node_4, # 0.0, 0.0, 2.9103830456733704e-14, # [m] 3, -0.058922175918830526, 0.0013521991508192166, 0.9982616634642677, 2, 0.9979988989815741, -0.022902977404982927, 0.05893768961838501, # structural_node_5, # offset, 0.0, 0.0, 0.0; # [m] joint: joint_8, prismatic, structural_node_4, # orientation, 3, -0.058922175918830526, 0.0013521991508192166, 0.9982616634642677, 2, 0.9979988989815741, -0.022902977404982927, 0.05893768961838501, #relative_orientation_matrix_1> structural_node_5, # orientation, 3, 0, 0, 1, 2, 0, 1, 0; #relative_orientation_matrix_2> joint: joint_12, revolute hinge, structural_node_7, # position, -0.07499992394297246, -0.00010681080630843098, 0.075, # [m] orientation, 3, 0.9999989859062998, 0.0014241440841156884, -4.440892098500626e-16, 2, -0.0014241440841156884, 0.9999989859062997, 1.0471177841909346e-10, # structural_node_6, # position, 0.0, 0.0, 0.0, # [m] orientation, 3, 0.0, 0.0, 1.0, 2, 0.0, 1.0, 0.0; # joint: joint_14, revolute hinge, structural_node_8, # position, 0.07499994787026051, 8.84277004365579e-05, 0.105, # [m] orientation, 3, -0.999999304936807, -0.0011790360058203109, 0.0, 2, 5.551115123125783e-17, 1.1102230246251565e-16, 1.0, # structural_node_7, # position, 0.0, 0.0, 0.0, # [m] orientation, 3, 0.0, 0.0, 1.0, 2, 0.0, 1.0, 0.0; # joint: joint_16, prismatic, structural_node_9, # orientation, 3, 0.0, 3.9968028886505634e-17, 1.0, 2, -0.0, 1.0, -3.9968028886505634e-17, #relative_orientation_matrix_1> structural_node_8, # orientation, 3, 0.0, 0.0, 1.0, 2, 0.0, 1.0, 0.0; #relative_orientation_matrix_2> joint: joint_17, spherical hinge, structural_node_9, # 0.0, 0.0, 0.2, # [m] structural_node_8, # 0.0, 0.0, 0.0; # [m] joint: joint_18, clamp, structural_node_10, # -0.329, 0.004, -1.473, # [m] 3, 0.0, -3.552713678800501e-17, 1.0, 2, 0.0, 1.0, 3.552713678800501e-17; # joint: joint_19, revolute hinge, structural_node_9, # position, 0.0, 0.0, 0.0, # [m] orientation, 3, 0.0, 0.0, 1.0, 2, 0.0, 1.0, 0.0, # structural_node_10, # position, 0.0, 0.0, 0.0, # [m] orientation, 3, 0.0, 0.0, 1.0, 2, 0.0, 1.0, 0.0; # joint: joint_21, prismatic, structural_node_6, # orientation, 3, 0.0, 0.9999989859068548, 0.0014241436943254193, 2, 0.0011790392047965658, 0.0014241427044502375, -0.9999982908405949, #relative_orientation_matrix_1> structural_node_5, # orientation, 3, -6.938893903907228e-18, 0.05893768961838506, 0.9982616634642677, 2, -0.9997367779487978, -0.02290297740498337, 0.0013521991508192235; #relative_orientation_matrix_2> joint: joint_22, spherical hinge, structural_node_6, # -0.006186656766077363, 0.10481758095882014, 0.075, # [m] structural_node_5, # 4.440892098500626e-19, -0.0011787537923677292, -0.019965233269285478; # [m] #----------------------------------------------------------------------------- # [Drive callers] drive caller: 1, name,"drive:1", ramp, 5.0, 0.25, 2.0, 0.0; end: elements;