public static short lineInterpolation()
{
short m;
if (mInpterplaType.run_flag == RUN)
{
return(-1);
}
ushort[] axis = new ushort[] { 0, 1, 2, 3 };
RFIDControl.dmc_set_vector_profile_multicoor(mInpterplaType.card_num, mInpterplaType.car_num, mInpterplaType.m_speed_min, mInpterplaType.m_speed_max, mInpterplaType.m_acc_time, mInpterplaType.m_dcc_time, 0); //设置插补速度
//运行到起点
mInpterplaType.m_ndist[X] = mInpterplaType.m_start[X] - mAxis[X].m_positon;
mInpterplaType.m_ndist[Y] = mInpterplaType.m_start[Y] - mAxis[Y].m_positon;
m = RFIDControl.dmc_line_multicoor(mInpterplaType.card_num, mInpterplaType.car_num, mInpterplaType.axis_cout, axis, mInpterplaType.m_ndist, REL_MODE); //执行
mInpterplaType.run_flag = RUN;
checkDmcMessage(m);
while (mInpterplaType.run_flag == RUN)
{
;
}
//运行到终点
mInpterplaType.m_ndist[X] = mInpterplaType.m_end[X] - mInpterplaType.m_start[X];
mInpterplaType.m_ndist[Y] = mInpterplaType.m_end[Y] - mInpterplaType.m_start[Y];
m = RFIDControl.dmc_line_multicoor(mInpterplaType.card_num, mInpterplaType.car_num, mInpterplaType.axis_cout, axis, mInpterplaType.m_ndist, REL_MODE); //执行
mInpterplaType.run_flag = RUN;
checkDmcMessage(m);
return(m);
}
public static short arcInterpolation(long[] targetPos, long[] centerPos, ushort arcDir, PositionMode positionMode) // 圆弧查补
{
short m;
if (mInpterplaType.run_flag == RUN)
{
return(-1);
}
//运行到起点坐标
ushort[] axis1 = new ushort[] { 0, 1, 2, 3 };
RFIDControl.dmc_set_vector_profile_multicoor(mInpterplaType.card_num, mInpterplaType.car_num, mInpterplaType.m_speed_min, mInpterplaType.m_speed_max, mInpterplaType.m_acc_time, mInpterplaType.m_dcc_time, 0); //设置插补速度
//运行到起点
mInpterplaType.m_ndist[X] = mInpterplaType.m_start[X] - mAxis[X].m_positon;
mInpterplaType.m_ndist[Y] = mInpterplaType.m_start[Y] - mAxis[Y].m_positon;
m = RFIDControl.dmc_line_multicoor(mInpterplaType.card_num, mInpterplaType.car_num, mInpterplaType.axis_cout, axis1, mInpterplaType.m_ndist, REL_MODE); //执行
mInpterplaType.run_flag = RUN;
checkDmcMessage(m);
while (mInpterplaType.run_flag == RUN)
{
;
}
//开始画轨迹
RFIDControl.dmc_set_vector_profile_multicoor(mInpterplaType.card_num, mInpterplaType.car_num, mInpterplaType.m_speed_min, mInpterplaType.m_speed_max, mInpterplaType.m_acc_time, mInpterplaType.m_dcc_time, 0); //设置插补速度
ushort[] axis = new ushort[] { X, Y };
m = RFIDControl.dmc_arc_move_multicoor(mInpterplaType.card_num, mInpterplaType.car_num, axis, targetPos, centerPos, arcDir, (ushort)positionMode); //以当前点为起点,半径为2000 pulse,顺时针走一个半圆,相对模式
mInpterplaType.run_flag = RUN;
checkDmcMessage(m);
return(m);
}
public static void moveEventHandle()
{
while (started)
{
if (goHomeFlag != 0)
{
if (startGoHome != 0)
{
if (NO_ORG == startSearchHome(ref mAxis[X]))
{
// AfxMessageBox(_T("X轴没有找到原点!"), MB_OK, MB_ICONEXCLAMATION);
//m_axis[0].m_home_flag=false;
Console.WriteLine("X轴没有找到原点");
}
else
{
delayTime(100);
RFIDControl.dmc_write_sevon_pin(0, 0, LOW);
singleAxisMove(ref mAxis[X], (long)(-42 * line_coefficient), ABS_MODE);
while (RFIDControl.dmc_check_done(mAxis[X].m_card_num, mAxis[X].m_axis_num) == RUN)
{
;
}
RFIDControl.dmc_write_sevon_pin(0, 0, HIGH);
delayTime(100);
RFIDControl.dmc_set_position(mAxis[X].m_card_num, mAxis[X].m_axis_num, 0); //设置零点
RFIDControl.dmc_set_encoder(0, 0, 0); //设置初始值为0
}
; //m_axis[0].m_home_flag=true;
}
if (startGoHome != 0)
{
if (NO_ORG == startSearchHome(ref mAxis[Y]))
{
// AfxMessageBox(_T("U轴没有找到原点!"), MB_OK, MB_ICONEXCLAMATION);
Console.WriteLine("U轴没有找到原点");
}
else
{
delayTime(100);
RFIDControl.dmc_write_sevon_pin(0, 1, LOW);
singleAxisMove(ref mAxis[Y], (long)(820 * cicle_coefficient), ABS_MODE);
while (RFIDControl.dmc_check_done(mAxis[Y].m_card_num, mAxis[Y].m_axis_num) == RUN)
{
;
}
RFIDControl.dmc_write_sevon_pin(0, 1, HIGH);
delayTime(100);
RFIDControl.dmc_set_position(mAxis[Y].m_card_num, mAxis[Y].m_axis_num, 0); //设置零点
RFIDControl.dmc_set_encoder(0, 1, 0); //设置初始值为0
}
}
delayTime(100);
startGoHome = 0;
goHomeFlag = 0;
}
}
}
public static void closeBoard()
{
mServoIo.check_flag = 1;
for (int i = 0; i < AXIS_NUM; ++i)
{
RFIDControl.dmc_write_sevon_pin(mAxis[i].m_card_num, mAxis[i].m_axis_num, HIGH); //伺服OFF
RFIDControl.dmc_set_inp_mode(mAxis[i].m_card_num, mAxis[i].m_axis_num, LOW, LOW); //设置伺服 INP 低电平有效
RFIDControl.dmc_set_alm_mode(mAxis[i].m_card_num, mAxis[i].m_axis_num, LOW, HIGH, 0); //设置 伺服ALM 高电平有效 松下伺服正常情况下输出低电平
}
RFIDControl.dmc_board_close();
}
public static void emgStop() //紧急停止
{
if (RFIDControl.dmc_check_done_multicoor(mInpterplaType.card_num, mInpterplaType.car_num) == RUN)
{
RFIDControl.dmc_stop_multicoor(0, 0, 1);
}
RFIDControl.dmc_stop(0, 0, DIRECT_STOP); //直接停止
RFIDControl.dmc_stop(0, 1, DIRECT_STOP); //直接停止
RFIDControl.dmc_stop(0, 2, DIRECT_STOP); //直接停止
mInpterplaType.run_flag = STOP;
startGoHome = 0;
}
public static void checkInputStatus()
{
ulong axisStatus;
while (started)
{
Thread.Sleep(100);
if (mServoIo.check_flag != 0)
{
return;
}
//X轴
axisStatus = RFIDControl.dmc_axis_io_status(0, 0);//读取轴的状态
mServoIo.servo1_alm = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_ALM);
mServoIo.servo1_el_b = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_EL_B);
mServoIo.servo1_el_f = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_EL_F);
mServoIo.servo1_emg = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_EMG);
mServoIo.servo1_org = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_ORG);
mServoIo.servo1_ez = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_EZ);
mServoIo.servo1_inp = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_INP);
mServoIo.servo1_rdy = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_RDY);
mServoIo.servo1_home_flag = mAxis[0].m_home_flag; //原点状态
//Y轴
axisStatus = RFIDControl.dmc_axis_io_status(0, 1); //读取轴的状态
mServoIo.servo2_alm = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_ALM);
mServoIo.servo2_el_b = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_EL_B);
mServoIo.servo2_el_f = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_EL_F);
mServoIo.servo2_emg = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_EMG);
mServoIo.servo2_org = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_ORG);
mServoIo.servo2_ez = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_EZ);
mServoIo.servo2_inp = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_INP);
mServoIo.servo2_rdy = (int)getStatus(axisStatus, (int)AxisStatus.MOTOR_RDY);
mServoIo.servo2_home_flag = mAxis[1].m_home_flag;//原点状态
//not exist z axis
//Z轴
//各个轴的运动状态
mAxis[0].m_run_status = (ushort)RFIDControl.dmc_check_done(mAxis[0].m_card_num, mAxis[0].m_axis_num);
mAxis[1].m_run_status = (ushort)RFIDControl.dmc_check_done(mAxis[1].m_card_num, mAxis[1].m_axis_num);
mAxis[0].m_positon = RFIDControl.dmc_get_encoder(mAxis[0].m_card_num, mAxis[0].m_axis_num);
mAxis[1].m_positon = RFIDControl.dmc_get_encoder(mAxis[1].m_card_num, mAxis[1].m_axis_num);
mInpterplaType.run_flag = RFIDControl.dmc_check_done_multicoor(mInpterplaType.card_num, mInpterplaType.car_num);
if ((RFIDControl.dmc_read_inbit(0, 0) == LOW) && (key_emg_press_flag == false))
{
key_emg_press_flag = true;
emgStop();
}
else
{
key_emg_press_flag = false;
}
}
}
public void originPoint()
{
RFIDMove.goHomeFlag = 1;
RFIDMove.startGoHome = 1;
RFIDControl.dmc_write_sevon_pin(0, 0, 0);
RFIDControl.dmc_write_sevon_pin(0, 1, 0);
// send pos thread
Thread checkInputThread = new Thread(new ThreadStart(this.sendPos));
checkInputThread.Name = "orgin point send pos";
checkInputThread.Start();
enqueable = false;
}
public static short initBoard()//初始化办卡 返回值:-1:没有卡号 0:正常
{
short m = RFIDControl.dmc_board_init();
if (m <= 0) //控制卡的初始化操作
{
//未找到控制卡
Console.WriteLine("未找到控制卡");
return(-1);
}
for (int i = 0; i < AXIS_NUM; ++i)
{
mAxis[i] = new AxisInfo();
mAxis[i].m_card_num = 0;
mAxis[i].m_axis_num = (ushort)i;
mAxis[i].m_home_mode = 1; //一次回零加回找
mAxis[i].m_home_flag = 0;
mAxis[i].m_acc_time = 0.4;
mAxis[i].m_dcc_time = 0.4;
mAxis[i].m_home_dir = MoveDir.FOR_WORD;
mAxis[i].m_speed_max = 10000; //dispenser_para.motor_speed;
mAxis[i].m_speed_max_home = 2000; //dispenser_para.go_home_speed;
mAxis[i].m_pulse_mode = 3;
mAxis[i].m_speed_min = 0;
mAxis[i].m_speed_min_home = 0;
mAxis[i].m_run_status = STOP;//停止状态
if (i < 2)
{
RFIDControl.dmc_set_inp_mode(mAxis[i].m_card_num, mAxis[i].m_axis_num, HIGH, LOW);
RFIDControl.dmc_set_alm_mode(mAxis[i].m_card_num, mAxis[i].m_axis_num, HIGH, HIGH, 0); //设置 伺服ALM 高电平有效 松下伺服正常情况下输出低电平
RFIDControl.dmc_set_counter_inmode(mAxis[i].m_card_num, mAxis[i].m_axis_num, 1); //设置编码器的计数方式 1倍频
RFIDControl.dmc_set_encoder(mAxis[i].m_card_num, mAxis[i].m_axis_num, 0); //设置初始值为0
}
}
//两轴查补
mInpterplaType.axis_cout = 2; //2个轴查补
mInpterplaType.car_num = 0; //坐标系号
mInpterplaType.card_num = 0; //卡号
mInpterplaType.line_type = 0; //线型
mInpterplaType.posi_mode = PositionMode.ABS_MODE; //位置模式
mInpterplaType.m_acc_time = 3;
mInpterplaType.m_dcc_time = 3;
mInpterplaType.m_speed_max = X_AXIS_MAX_SPEED;
mInpterplaType.arc_dir = CCW;
return(0);
}
public void rotatingRun(double finalAngle, double speed)
{
if (rotatingEnabled)
{
RFIDControl.dmc_write_sevon_pin(0, 1, 0);
Thread.Sleep(10);
rotatingEnabled = false;
RFIDMove.mAxis[1].m_speed_max = Convert.ToInt32((speed * 60 * RFIDMove.cicle_coefficient));
yPos = Convert.ToInt32((finalAngle * 60 * RFIDMove.cicle_coefficient));
RFIDMove.singleAxisMove(ref RFIDMove.mAxis[1], yPos, RFIDMove.ABS_MODE);
// send pos thread
Thread checkInputThread = new Thread(new ThreadStart(this.sendPos));
checkInputThread.Name = "rotating run send pos";
checkInputThread.Start();
enqueable = true;
}
}
public void horizontalRun(double finalPos, double speed)
{
if (horizontalEnabled)
{
RFIDControl.dmc_write_sevon_pin(0, 0, 0);
Thread.Sleep(10);
horizontalEnabled = false;
xPos = Convert.ToInt32((finalPos * 1000 * RFIDMove.line_coefficient));
RFIDMove.mAxis[0].m_speed_max = Convert.ToInt32((speed * 1000 * RFIDMove.line_coefficient));
RFIDMove.singleAxisMove(ref RFIDMove.mAxis[0], xPos, RFIDMove.ABS_MODE);
// send pos thread
Thread checkInputThread = new Thread(new ThreadStart(this.sendPos));
checkInputThread.Name = "horizontal send pos";
checkInputThread.Start();
enqueable = true;
}
}
public static short singleAxisMove(ref AxisInfo axisInfo, long pos, ushort positionMode)
{
short m = 0;
if (axisInfo.m_run_status == RUN)
{
return(-1);
}
RFIDControl.dmc_set_pulse_outmode(axisInfo.m_card_num, axisInfo.m_axis_num, axisInfo.m_pulse_mode);
RFIDControl.dmc_set_profile(axisInfo.m_card_num, axisInfo.m_axis_num, axisInfo.m_speed_min, axisInfo.m_speed_max, axisInfo.m_acc_time, axisInfo.m_dcc_time, 100);
//设定S段时间
RFIDControl.dmc_set_s_profile(axisInfo.m_card_num, axisInfo.m_axis_num, 0, 0.4);
m = RFIDControl.dmc_pmove(axisInfo.m_card_num, axisInfo.m_axis_num, pos, positionMode);
checkDmcMessage(m);
axisInfo.m_run_status = RUN;
return(m);
}
public static void motorStopMulti() //插补停止
{
RFIDControl.dmc_stop_multicoor(mInpterplaType.card_num, mInpterplaType.car_num, DIRECT_STOP); //减速停止
}
public void resetHorizontalPos()
{
//水平位置清零
RFIDControl.dmc_set_encoder(RFIDMove.mAxis[0].m_card_num, RFIDMove.mAxis[0].m_axis_num, 0);
RFIDControl.dmc_set_position(RFIDMove.mAxis[0].m_card_num, RFIDMove.mAxis[0].m_axis_num, 0);
}
public static void motorStop(ref AxisInfo axisInfo)
{
RFIDControl.dmc_stop(axisInfo.m_card_num, axisInfo.m_axis_num, DIRECT_STOP);//直接停止
}
private void sendPos()
{
bool b = false;
bool b_break_able = false; //第一次进入不退出
long microSecond = 0;
if (RFIDMove.goHomeFlag != 0)
{
b = true;
}
int period = 10;
Thread.Sleep(period);
while (true)
{
//进入临界区
//获取位置信息 通过网络发送位置信息
lock (this)
{
if (enqueable)
{
xNowPos = RFIDControl.dmc_get_encoder(RFIDMove.mAxis[0].m_card_num, RFIDMove.mAxis[0].m_axis_num);
yNowPos = RFIDControl.dmc_get_encoder(RFIDMove.mAxis[1].m_card_num, RFIDMove.mAxis[1].m_axis_num);
xNowPosShow = xNowPos / RFIDMove.line_coefficient / 10; //mm
yNowPosShow = yNowPos / RFIDMove.cicle_coefficient / 10; //mm
microSecond = CurrentMillis.MicroSeconds;
posQueue.Enqueue(new DMCPosDto(xNowPosShow, yNowPosShow, microSecond));
}
}
//离开临界区
Thread.Sleep(10);
if (b_break_able) //第一次循环必须读取一个位置信息,以便发送到目标IP
{
if (b)
{
if (RFIDMove.goHomeFlag == 0)
{
break;
}
}
else if ((RFIDMove.mAxis[0].m_run_status != RFIDMove.RUN) && (RFIDMove.mAxis[1].m_run_status != RFIDMove.RUN))
{
RFIDControl.dmc_set_position(RFIDMove.mAxis[0].m_card_num, RFIDMove.mAxis[0].m_axis_num, xNowPos / 10);
RFIDControl.dmc_set_position(RFIDMove.mAxis[1].m_card_num, RFIDMove.mAxis[1].m_axis_num, yNowPos / 10);
RFIDMove.singleAxisMove(ref RFIDMove.mAxis[0], xPos, RFIDMove.ABS_MODE);
RFIDMove.singleAxisMove(ref RFIDMove.mAxis[1], yPos, RFIDMove.ABS_MODE);
Thread.Sleep(500);
break;
}
}
else
{
b_break_able = true;
}
}
lock (this)
{
if (enqueable)
{
xNowPos = RFIDControl.dmc_get_encoder(RFIDMove.mAxis[0].m_card_num, RFIDMove.mAxis[0].m_axis_num);
yNowPos = RFIDControl.dmc_get_encoder(RFIDMove.mAxis[1].m_card_num, RFIDMove.mAxis[1].m_axis_num);
xNowPosShow = xNowPos / RFIDMove.line_coefficient / 10; //mm
yNowPosShow = yNowPos / RFIDMove.cicle_coefficient / 10; //mm
microSecond = CurrentMillis.MicroSeconds;
posQueue.Enqueue(new DMCPosDto(xNowPosShow, yNowPosShow, microSecond));
}
}
RFIDControl.dmc_write_sevon_pin(0, 0, 1);
RFIDControl.dmc_write_sevon_pin(0, 1, 1);
rotatingEnabled = true;
horizontalEnabled = true;
}
public static void servoErc(ref AxisInfo axisInfo)
{
RFIDControl.dmc_write_erc_pin(axisInfo.m_card_num, axisInfo.m_axis_num, LOW);
Thread.Sleep(100);
RFIDControl.dmc_write_erc_pin(axisInfo.m_card_num, axisInfo.m_axis_num, HIGH);
}
public void resetRotatingPos()
{
//旋转位置清零
RFIDControl.dmc_set_encoder(RFIDMove.mAxis[1].m_card_num, RFIDMove.mAxis[1].m_axis_num, 0);
RFIDControl.dmc_set_position(RFIDMove.mAxis[1].m_card_num, RFIDMove.mAxis[1].m_axis_num, 0);
}
public static ushort startSearchHome(ref AxisInfo axisInfo)
{
ulong axisStatus;
ushort orignCount = 0;
axisInfo.m_acc_time = 0.1;
axisInfo.m_dcc_time = 0.1;
orign_begin:
axisInfo.m_home_flag = 0;
RFIDControl.dmc_set_home_pin_logic(axisInfo.m_card_num, axisInfo.m_axis_num, LOW, 0); //原点信号 低电平有效
RFIDControl.dmc_set_pulse_outmode(axisInfo.m_card_num, axisInfo.m_axis_num, axisInfo.m_pulse_mode); //设置脉冲输出模式
RFIDControl.dmc_set_profile(axisInfo.m_card_num, axisInfo.m_axis_num, axisInfo.m_speed_min_home, axisInfo.m_speed_max_home, axisInfo.m_acc_time, axisInfo.m_dcc_time, 500); //设置速度曲线
RFIDControl.dmc_set_homemode(axisInfo.m_card_num, axisInfo.m_axis_num, (ushort)axisInfo.m_home_dir, 1, (ushort)axisInfo.m_home_mode, 0); //设置回零方式 反向回原点
orignCount++;
axisStatus = RFIDControl.dmc_axis_io_status(axisInfo.m_card_num, axisInfo.m_axis_num); //读取轴的状态
if (getStatus(axisStatus, (int)AxisStatus.MOTOR_ORG) != 0) //开始回原点时正在原点位置上
{
// dmc_set_profile(m_axis->m_card_num,m_axis->m_axis_num,m_axis->m_speed_min_home,m_axis->m_speed_max_home,m_axis->m_acc_time,m_axis->m_dcc_time,500);//设置速度曲线
RFIDControl.dmc_vmove(axisInfo.m_card_num, axisInfo.m_axis_num, (ushort)(axisInfo.m_home_dir == MoveDir.FOR_WORD ? MoveDir.BACK_WORD : MoveDir.FOR_WORD)); //反向运动
delayTime(WAIT_TIMER); //延时
do
{
axisStatus = RFIDControl.dmc_axis_io_status(axisInfo.m_card_num, axisInfo.m_axis_num);//读取轴的状态
if (startGoHome == 0)
{
return(NO_ORG);
}
} while (getStatus(axisStatus, (int)AxisStatus.MOTOR_ORG) != 0);//等到原点信号 变高
RFIDControl.dmc_stop(axisInfo.m_card_num, axisInfo.m_axis_num, DIRECT_STOP);
}
if (getStatus(axisStatus, (int)AxisStatus.MOTOR_EL_B) != 0) //开始时在负限位
{
RFIDControl.dmc_vmove(axisInfo.m_card_num, axisInfo.m_axis_num, (ushort)(axisInfo.m_home_dir == MoveDir.FOR_WORD ? MoveDir.BACK_WORD : MoveDir.FOR_WORD)); //反向运动
delayTime(WAIT_TIMER); //延时
do
{
axisStatus = RFIDControl.dmc_axis_io_status(axisInfo.m_card_num, axisInfo.m_axis_num);//读取轴的状态
if (startGoHome == 0)
{
return(NO_ORG);
}
} while (getStatus(axisStatus, (int)AxisStatus.MOTOR_ORG) == 0);//查询原点信号
do
{
axisStatus = RFIDControl.dmc_axis_io_status(axisInfo.m_card_num, axisInfo.m_axis_num);//读取轴的状态
if (startGoHome == 0)
{
return(NO_ORG);
}
} while (getStatus(axisStatus, (int)AxisStatus.MOTOR_ORG) != 0);//查询消失原点信号
RFIDControl.dmc_stop(axisInfo.m_card_num, axisInfo.m_axis_num, DIRECT_STOP);
}
delayTime(100); //延时
RFIDControl.dmc_home_move(axisInfo.m_card_num, axisInfo.m_axis_num); //回零动作
delayTime(WAIT_TIMER); //延时
while (RFIDControl.dmc_check_done(axisInfo.m_card_num, axisInfo.m_axis_num) == RUN) //判断当前轴状态
{
//遇到极限自动返回
axisStatus = RFIDControl.dmc_axis_io_status(axisInfo.m_card_num, axisInfo.m_axis_num); //读取轴的状态
if (getStatus(axisStatus, (int)AxisStatus.MOTOR_EL_B) != 0) //负向极限
{
RFIDControl.dmc_stop(axisInfo.m_card_num, axisInfo.m_axis_num, DIRECT_STOP);
delayTime(WAIT_TIMER); //延时
RFIDControl.dmc_vmove(axisInfo.m_card_num, axisInfo.m_axis_num, (ushort)(axisInfo.m_home_dir == MoveDir.BACK_WORD ? MoveDir.FOR_WORD : MoveDir.BACK_WORD)); //反向运动
delayTime(WAIT_TIMER); //延时
do
{
axisStatus = RFIDControl.dmc_axis_io_status(axisInfo.m_card_num, axisInfo.m_axis_num);//读取轴的状态
if (startGoHome == 0)
{
return(NO_ORG);
}
} while (getStatus(axisStatus, (int)AxisStatus.MOTOR_ORG) == 0);//查询原点信号
do
{
axisStatus = RFIDControl.dmc_axis_io_status(axisInfo.m_card_num, axisInfo.m_axis_num);//读取轴的状态
if (startGoHome == 0)
{
return(NO_ORG);
}
} while (getStatus(axisStatus, (int)AxisStatus.MOTOR_ORG) != 0); //查询消失原点信号
RFIDControl.dmc_stop(axisInfo.m_card_num, axisInfo.m_axis_num, DIRECT_STOP);
delayTime(100); //延时
RFIDControl.dmc_home_move(axisInfo.m_card_num, axisInfo.m_axis_num); //重新开始回零动作
}
if (getStatus(axisStatus, (int)AxisStatus.MOTOR_EL_F) != 0) //负向极限
{
if (orignCount < 3)
{
goto orign_begin;
}
RFIDControl.dmc_stop(axisInfo.m_card_num, axisInfo.m_axis_num, DIRECT_STOP);
return(NO_ORG);//没有原信号
}
if (startGoHome == 0)
{
return(NO_ORG);
}
}
if (startGoHome == 0)
{
return(NO_ORG);
}
delayTime(100);
RFIDControl.dmc_set_position(axisInfo.m_card_num, axisInfo.m_axis_num, 0); //设置零点
axisInfo.m_home_flag = 1;
//设定脉冲模式及逻辑方向(此处脉冲模式固定为P+D方向:脉冲+方向)
RFIDControl.dmc_set_pulse_outmode(axisInfo.m_card_num, axisInfo.m_axis_num, axisInfo.m_pulse_mode);
RFIDControl.dmc_set_profile(axisInfo.m_card_num, axisInfo.m_axis_num, axisInfo.m_speed_min, axisInfo.m_speed_max, axisInfo.m_acc_time, axisInfo.m_dcc_time, 0);
//设定S段时间
RFIDControl.dmc_set_s_profile(axisInfo.m_card_num, axisInfo.m_axis_num, 0, 0.4);
RFIDControl.dmc_set_encoder(axisInfo.m_card_num, axisInfo.m_axis_num, 0); //设置初始值为0
RFIDControl.dmc_set_position(axisInfo.m_card_num, axisInfo.m_axis_num, 0); //初始位置设为零
RFIDControl.dmc_set_equiv(axisInfo.m_card_num, axisInfo.m_axis_num, 1);
axisInfo.m_pulse_mode = 3;
axisInfo.m_home_flag = 1;
return(ORG_OK);
}
