| 主权项 |
1. A road surface self-adapting anti-slip anti-lock control method for an electrically driven mine vehicle, wherein, the method is used for an anti-slip, anti-lock system, the method comprising the following steps:
S1: judging whether the vehicle is in drive mode, if a judging result is negative, skipping to step S10; and if the judging result is positive, skipping to S2; S2: judging whether a speed of a designated driving wheel of the vehicle is greater than a preset wheel-speed value, and judging whether a slip ratio of the wheel is greater than a preset slip-ratio value; exiting, if any of the two judging results is negative; and if the two judging results are positive, skipping to S3; S3: judging whether the speed of the vehicle is more than a first preset value, and if a judging result is negative, skipping to step S7 and if the judging result is positive, skipping to S4; S4: adjusting a torque of the designated driving wheel according to a high speed anti-slip policy, then skipping to S5; S5: judging whether the speed of the designated drive wheel is less than the corresponding preset value, exiting, if a judging result is positive, skipping to S6, if the judging result is negative; S6: judging whether the torque partition coefficient of the designated driving wheel is greater than the preset one; if a judging result is negative, returning to step S4, if a judging result is positive, exiting; S7: adjusting the torque of the designated drive wheel according to a low speed anti-slip policy, then skipping to S8; S8: judging whether the speed of the designated driving wheel of the vehicle is less than a preset wheel-speed value, exiting, if a judging result is positive, and if the judging result is negative, skipping to S9; S9: judging whether the torque partition coefficient of the designated driving wheel of the vehicle is greater than a preset one, if a judging result is negative, skipping to step S7, if the judging result is positive, exiting; S10: judging whether the vehicle is in brake mode, if a judging result is negative, exiting, if the judging result is positive, skipping to S11; S11: judging whether the speed of the vehicle is more than a second preset value and judging whether the slip ratio of the wheel is greater than a preset slip-ratio value; exiting, if any of the two judging results is negative, if the two judging results are positive, skipping to S12; S12: adjusting the braking force of the designated driving wheel according to the preset anti-lock strategy, then skipping to S13; S13: judging whether the speed of the vehicle is less than the second preset speeding value, if a judging result is positive, exiting, if the judging result is negative, skipping to S14; and, S14: judging whether the slip ratio of the wheel is less than a preset minimum slip-ratio value; if a judging result is negative, returning to step S12, if the judging result is positive, exiting; wherein the high speed anti-slip policy comprises the following steps: when the acceleration of the designated driving wheel is increased to a preset threshold value, or the slip ration is increased to a preset upper limit threshold value, the declining rate of the designated driving wheel torque is achieved through the preset speed down function calculation in accordance with the present slip ratio of the designated driving wheel, and the torques of the designated driving wheel and a coaxial wheel are reduced in accordance with the declining rate of the designated driving wheel; when the deceleration of the designated driving wheel is increased to a preset threshold value, or the slip ratio is reduced to a preset lower limit threshold value, the increasing rate of the designated driving wheel torque is achieved through the preset speed up function calculation in accordance with the present slip ration of the designated driving wheel, and the torques of the designated driving wheel and the coaxial wheel are increased in accordance with the increasing rate of the designated driving wheel; the speed down function is preset by the interpolation method, which takes the slip ratio of the designated driving wheel as independent variables and takes the declining rate of the designated driving wheel torque as the speed down function of function value, and an adjustable parameter is reversed in the speed down function; the speed up function is preset by the interpolation method, which takes the slip ratio of the designated driving wheel as independent variables and takes the increasing rate of the designated driving wheel torque as the speed up function of function value, and an adjustable parameter is reversed in the speed up function; wherein the low speed anti-slip policy comprises the following steps: when the acceleration of the designated driving wheel is increased to its preset threshold value, or the slip ratio is increased to its preset upper limit threshold value, the declining rate of the designated driving wheel torque is achieved through the preset speed down function calculation in accordance with the present slip ration of the designated driving wheel, and the designated driving wheel torque is reduced in accordance with the declining rate of the designated driving wheel, the coaxial wheel torque of the designated driving wheel is increased simultaneously; when the deceleration of the designated driving wheel is increased to its preset threshold value, or the slip ratio is reduced to its lower limit preset threshold value, the increasing rate of the designated driving wheel torque is achieved through the preset speed up function calculation in accordance with the present slip ratio of the designated driving wheel, and the designated driving wheel torque is increased in accordance with the declining rate of the designated driving wheel, the coaxial wheel torque of the designated driving wheel is reduced simultaneously; wherein the speed down function is preset by the interpolation method, which takes the slip ratio of the designated driving wheel as independent variables and takes the declining rate of the designated driving wheel torque as the speed down function of function value, and an adjustable parameter is reversed in the speed down function; the speed up function is preset by the interpolation method, which takes the slip ratio of the designated driving wheel as independent variables and takes the increasing rate of the designated driving wheel torque as the speed up function of function value, and an adjustable parameter is reversed in the speed up function; wherein the preset anti-lock strategy comprises: when the acceleration of the designated driving wheel is increased to its preset threshold value, or the slip ratio is increased to its upper limit preset threshold value, the declining rate of the designated driving wheel torque is calculated in accordance with the present slip ration of the designated driving wheel by the preset speed down function, and the declining rate of the designated driving wheel torque is used to reduce the designated driving wheel torque by controlling the brake apparatus; wherein the speed down function is reset by the interpolation method, which takes the slip ratio of the designated driving wheel as independent variables and takes the declining rate of the designated driving wheel torque as the speed down function of the function value, and an adjustable parameter is reversed in the speed down function. |
