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AitalMAC-UI.md
Unescape Escape View File

@ -1340,43 +1340,43 @@ The input signal on the control card is not assigned
#### 1.5.1.81 81 [ECAT.16.1] TILTER VACUUM 1 IN PRESSURE
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and flipping the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and move the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
#### 1.5.1.82 82 [ECAT.16.2] TILTER VACUUM 2 IN PRESSURE
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and flipping the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and move the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
#### 1.5.1.83 83 [ECAT.16.3] TILTER VACUUM 3 IN PRESSURE
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and flippinf the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and move the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
#### 1.5.1.84 84 [ECAT.16.4] TILTER VACUUM 4 IN PRESSURE
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and flipping the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and move the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
#### 1.5.1.85 85 [ECAT.16.5] TILTER VACUUM 5 IN PRESSURE
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and flipping the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and move the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
#### 1.5.1.86 86 [ECAT.16.6] TILTER VACUUM 6 IN PRESSURE
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and flipping the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and move the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
#### 1.5.1.87 87 [ECAT.16.7] TILTER VACUUM 7 IN PRESSURE
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and flipping the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and move the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
#### 1.5.1.88 88 [ECAT.16.8] TILTER VACUUM 8 IN PRESSURE
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and flipping the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
The input signal from the vacuum monitoring sensor on the suction cups indicates whether there is a vacuum present or not. If the vacuum is created on a suction cup, it is possible to lift and move the material on the workbench. If not, a signal will appear to check the suction cup with the number where there is no vacuum.
#### 1.5.1.89 89 [ECAT.16.9] TILTER AT 0A°
The input signal comes from the position sensor of the additional vacuum suction cups. The suction cups are lifted and rotated to flip the material.
The input signal from the position sensor of the additional vacuum suction cups. The suction cups are raised and the machine can perform cutting and milling work.
#### 1.5.1.90 90 [ECAT.16.10] TILTER AT 180A°
The input signal from the position sensor of the additional vacuum suction cups. The suction cups are lowered and the machine can perform work on flipping the material on the workbench.
The input signal from the position sensor of the additional vacuum suction cups. The suction cups are lowered and the machine can perform work on moving the material on the workbench.
#### 1.5.1.91 91 [ECAT.16.11] FLIPPER SAFETY
@ -1408,20 +1408,12 @@ The input signal on the control card is not assigned
#### 1.5.1.97 REMOTE SPD+
The input signal is a change in the speed of the spindle as a percentage of its initial speed.
#### 1.5.1.98 REMOTE BLADE ON
Input signal for turning on the spindle from the remote control
#### 1.5.1.99 REMOTE SPD-
The input signal is used to reduce the speed of the spindle as a percentage of its initial speed.
#### 1.5.1.100 REMOTE CONFIRM
The input signal for connecting the remote control
#### 1.5.1.101 REMOTE Y+
An input signal to enable the movement of the machine in a positive direction along the Y-axis using the remote control.
@ -1457,7 +1449,7 @@ An input signal to enable the movement of the machine in a positive direction al
### 1.5.2 OUTPUT (1-32)
![1.5.2_a.png](/aitalmac-ui/1.5.2_a.png)
A tab with the output signals from the main modules and components of the machine. The operator can use this tab to check the operation of selected commands, see how the machine is performing, and, if necessary, make adjustments.Care must be taken when using the output signals, because the commands are forced and do not match the safe positions of the machine.
A tab with the output signals from the main modules and components of the machine. The operator can use this tab to check the operation of selected commands, see how the machine is performing, and, if necessary, make adjustments.
#### 1.5.2.1 01 [ECAT.13.01] ENABLE MACHINE
@ -1469,8 +1461,6 @@ Resets (reboots) the camera used for taking images of material on the workbench.
#### 1.5.2.3 03 [ECAT.13.03] WATERJET ENABLE
Activates the water jet. This signal is also given when the machine is turned on from the operator's menu.
#### 1.5.2.4 04 [ECAT.13.04] VACUUM PUMP
Activates the vacuum pump, creating a vacuum in the system. This signal is necessary for testing all vacuum suction cups. Each suction cup can be tested individually by activating its respective output signal.
@ -1485,20 +1475,14 @@ Activates the automatic lubrication pump. The pump normally operates at set inte
#### 1.5.2.7 07 [ECAT.13.07] CHILLER SWITCH
Activating chiller shutdown
#### 1.5.2.8 08 [ECAT.13.08] TABLE SLOW SWITCH VALVE
???
#### 1.5.2.9 09 [ECAT.13.09] SLAB WASH
Activates the material cleaning system. This opens the water supply valve for cleaning nozzles.
#### 1.5.2.10 10 [ECAT.13.10] WATERJET GUN
???
#### 1.5.2.11 11 [ECAT.13.11] INTERNAL WATER
Enables water flow through the spindle center for milling operations. Activating this signal opens the respective water and air supply valves.
@ -1601,177 +1585,95 @@ Activates the yellow light on the control panel. The yellow light signals that t
#### 1.5.2.35 35 [ECAT.19.03] GREEN LIGHT
Activates the green light on the control panel. A green light warns the operator when the machine is working.
#### 1.5.2.36 36 [ECAT.19.04] WHITE LIGHT
Activates the white light on the control panel. A white light warns the operator about making machine settings
#### 1.5.2.37 37 [ECAT.19.05] TCP LIGHT
Activates the green illumination of the switch. The green light indicates that interpolation is enabled.
#### 1.5.2.38 38 [ECAT.19.06] NONE
The output signal on the control board is not set
#### 1.5.2.39 39 [ECAT.19.07] NONE
The output signal on the control board is not set
#### 1.5.2.40 40 [ECAT.19.08] NONE
The output signal on the control board is not set
#### 1.5.2.41 41 [ECAT.19.09] NONE
The output signal on the control board is not set
#### 1.5.2.42 42 [ECAT.19.10] NONE
The output signal on the control board is not set
#### 1.5.2.43 43 [ECAT.19.11] NONE
The output signal on the control board is not set
#### 1.5.2.44 44 [ECAT.19.12] NONE
The output signal on the control board is not set
#### 1.5.2.45 45 [ECAT.19.13] NONE
The output signal on the control board is not set
#### 1.5.2.46 46 [ECAT.19.14] NONE
The output signal on the control board is not set
#### 1.5.2.47 47 [ECAT.19.15] NONE
The output signal on the control board is not set
#### 1.5.2.48 48 [ECAT.19.16] NONE
The output signal on the control board is not set
### 1.5.3 DOUT (1-16)
![1.5.3.png](/aitalmac-ui/1.5.3.png)
#### 1.5.3.1 1 [ECAT.15.01] FLIPPER VAC 1
Activates the vacuum suction cup (1) on the tile flip module.
#### 1.5.3.2 42 [ECAT.15.02] FLIPPER VAC 2
Activates the vacuum suction cup (2) on the tile flip module.
#### 1.5.3.3 43 [ECAT.15.03] FLIPPER VAC 3
Activates the vacuum suction cup (3) on the tile flip module.
#### 1.5.3.4 44 [ECAT.15.04] FLIPPER VAC 4
Activates the vacuum suction cup (4) on the tile flip module.
#### 1.5.3.5 45 [ECAT.15.05] FLIPPER VAC 5
Activates the vacuum suction cup (5) on the tile flip module.
#### 1.5.3.6 46 [ECAT.15.06] FLIPPER VAC 6
Activates the vacuum suction cup (6) on the tile flip module.
#### 1.5.3.7 47 [ECAT.15.07] FLIPPER VAC 7
Activates the vacuum suction cup (7) on the tile flip module.
#### 1.5.3.8 48 [ECAT.15.08] FLIPPER VAC 8
Activates the vacuum suction cup (8) on the tile flip module.
#### 1.5.3.9 49 [ECAT.15.09] FLIPPER FLIP
Activates a 180° rotation of the module. The command will execute without safety checks, so the operator must carefully monitor the module's position.
#### 1.5.3.10 59 [ECAT.15.10] NONE
The output signal on the control board is not set
#### 1.5.3.11 60 [ECAT.15.11] NONE
The output signal on the control board is not set
#### 1.5.3.12 61 [ECAT.15.12] NONE
The output signal on the control board is not set
#### 1.5.3.13 62 [ECAT.15.13] NONE
The output signal on the control board is not set
#### 1.5.3.14 63 [ECAT.15.14] NONE
The output signal on the control board is not set
#### 1.5.3.15 64 [ECAT.15.15] NONE
The output signal on the control board is not set
#### 1.5.3.16 65 [ECAT.15.16] NONE
The output signal on the control board is not set
### 1.5.4 SERVICE
![1.5.4.png](/aitalmac-ui/1.5.4.png)
This section displays operational data for the machine and motors, including total running hours (machine hours), to facilitate timely maintenance.
#### 1.5.4.1 MACHINE HOURS
Displays the total runtime of the machine from its first activation to the most recent shutdown.
#### 1.5.4.2 SPINDLE HOURS
Shows the cumulative runtime of the spindle from its initial activation to the most recent shutdown.
#### 1.5.4.3 WATERJET HOURS
Indicates the total runtime of the waterjet motor from its first activation to the most recent shutdown.
## 1.6 Parameters
![1.6.png](/aitalmac-ui/1.6.png)
The main machine parameters are divided into five tabs for easy navigation and adjustment.
### 1.6.1 General (1-18)
![1.6.1_a.png](/aitalmac-ui/1.6.1_a.png)
This tab contains the primary settings for the machine.
#### 1.6.1.1 Language
Allows the selection of the interface language. Users can activate one of the available language options.
#### 1.6.1.2 Machine
Enables the selection of the machine model for parameter configuration. Activate the appropriate model to adjust settings.
#### 1.6.1.3 Write debug info to the debug.txt
Enabling or disabling the "Write debug information to a file" debug.txt
#### 1.6.1.4 Lock page
Enabling or disabling the ability to block a page
#### 1.6.1.5 Use AitalMAC Remote
Enables or disables the ability to use the AitalMAC remote control for machine operations.
#### 1.6.1.5 Use aitalmac remote
#### 1.6.1.6 Auto accept pnc program
@ -1779,111 +1681,61 @@ Enables or disables the ability to use the AitalMAC remote control for machine o
#### 1.6.1.8 Check B angle when Z down without Blade
Enabling or disabling the ability check B angle when Z down without Blade
#### 1.6.1.9 Image position is without KINS
#### 1.6.1.10 Debug mode
#### 1.6.1.11 GCode type for gcode page
Choosing the file format for downloading the G-code program
#### 1.6.1.12 Accent Color
Selection of the accent color for display in the menu.
#### 1.6.1.13 Primary Color
Selection of the primary color for display in the menu.
#### 1.6.1.14 CNC Communication Rate (ms)
The communication speed of the control modules.
#### 1.6.1.14 CNC communication rate (ms)
#### 1.6.1.15 Wait Time After Machine On (s)
#### 1.6.1.15 Wait time of after machine on (s)
The waiting time before using the machine after it is turned on. This allows for self-testing and system checks.
#### 1.6.1.16 Wait time of after finish homing (ms)
#### 1.6.1.16 Wait Time After Finish Homing (ms)
#### 1.6.1.17 Linear speed
The waiting time after completing the homing sequence.
#### 1.6.1.17 Linear Speed
The linear movement speed of the machine.
#### 1.6.1.18 Angular Speed
The angular rotation speed of the machine.
#### 1.6.1.18 Angular speed
### 1.6.1 General (19-34)
![1.6.1_b.png](/aitalmac-ui/1.6.1_b.png)
#### 1.6.1.19 No Tool Linear Speed (for A8)
The linear movement speed of the machine when no tool is loaded.
#### 1.6.1.20 No Tool Angular Speed (for A8)
The angular rotation speed of the machine when no tool is loaded.
#### 1.6.1.19 No tool linear speed (for A8)
#### 1.6.1.21 Pick Point Radius
#### 1.6.1.20 No tool angular speed (for A8)
The radius of the point created as a marker (laser cross) in the imported file.
#### 1.6.1.21 Pick point radius
#### 1.6.1.22 Laser X Offset
#### 1.6.1.22 Laser x offset
The laser's offset distance along the X-axis.
#### 1.6.1.23 Laser y offset
#### 1.6.1.23 Laser Y Offset
#### 1.6.1.24 Table corner X point (G56)
The laser's offset distance along the Y-axis.
#### 1.6.1.24 Table Corner X Point (G56)
The coordinate system selection for the table corner along the X-axis.
#### 1.6.1.25 Table Corner Y Point (G56)
The coordinate system selection for the table corner along the Y-axis.
#### 1.6.1.25 Table corner Y point (G56)
#### 1.6.1.26 X Parking Position
The X-axis coordinates for parking the machine in a safe position.
#### 1.6.1.27 Y Parking Position
The Y-axis coordinates for parking the machine in a safe position.
#### 1.6.1.28 Z Safe Position
The safety position distance along the Z-axis.
#### 1.6.1.29 B Safe Position
The safety position angle along the B-axis.
#### 1.6.1.30 C safe Position
#### 1.6.1.30 C Safe Position
#### 1.6.1.31 V safe Position
The safety position angle along the C-axis.
#### 1.6.1.32 Z fingerbit probe start
#### 1.6.1.31 V Safe Position
#### 1.6.1.33 Z fingerbit probe end
The safety position angle along the V-axis.
#### 1.6.1.32 Z Fingerbit Probe Start
The Z-axis coordinate for the start of the slow descent to the probe for measuring the installed tool's length.
#### 1.6.1.33 Z Fingerbit Probe End
The Z-axis coordinate for the end of the descent to the probe for measuring the installed tool's length.
#### 1.6.1.34 Fingerbit Probe B Safe
The B-axis angle position for performing the tool length measurement command using the probe.
#### 1.6.1.34 Fingerbit probe B safe
### 1.6.1 General (35-50)
@ -1891,147 +1743,79 @@ The B-axis angle position for performing the tool length measurement command usi
#### 1.6.1.35 Blade probe C safe
The C-axis angle for performing the blade diameter measurement using the probe.
#### 1.6.1.36 Z blade probe start
The Z-axis coordinate for starting the slow descent of the machine head to the probe for measuring the blade diameter.
#### 1.6.1.37 Z blade probe end
The Z-axis coordinate for ending the descent of the machine head to the probe for measuring the blade diameter.
#### 1.6.1.38 Blade probe x position
The X-axis coordinate of the probe.
#### 1.6.1.39 Blade probe y position
The Y-axis coordinate of the probe.
#### 1.6.1.40 Blade probe z position
The Z-axis coordinate of the probe.
#### 1.6.1.41 Blade probe down feed
The feed rate for performing the blade diameter measurement.
#### 1.6.1.42 Table x point
The X-axis coordinate of the table corner point.
#### 1.6.1.43 Table y point
The Y-axis coordinate of the table corner point.
#### 1.6.1.44 Table width
The width of the table.
#### 1.6.1.45 Table height
The height of the table.
#### 1.6.1.46 Resolution
The tab for selecting image resolution.
#### 1.6.1.47 Use internet camera
Enables or disables the use of a network camera.
#### 1.6.1.48 Picture count (work for single host)
Specifies the number of pictures to be taken.
#### 1.6.1.49 Old camera
Indicates whether the old camera is active or inactive.
#### 1.6.1.50 Take X0 image position
The X-axis coordinate for taking a photo.
### 1.6.1 General (51-65)
![1.6.1_d.png](/aitalmac-ui/1.6.1_d.png)
#### 1.6.1.51 Take Y0 image position
The Y-axis coordinate for taking a photo.
#### 1.6.1.52 Take X1 image position
The X-axis coordinate for taking a photo.
#### 1.6.1.53 Take Yl image position
The Y-axis coordinate for taking a photo.
#### 1.6.1.54 Take X2 image position
The X-axis coordinate for taking a photo.
#### 1.6.1.55 Take Y2 image position
The Y-axis coordinate for taking a photo.
#### 1.6.1.56 Take X3 image position
The X-axis coordinate for taking a photo.
#### 1.6.1.57 Take Y3 image position
The Y-axis coordinate for taking a photo.
#### 1.6.1.58 Wait time for take picture
The waiting time for equipment preparation before taking a picture.
#### 1.6.1.59 Picture Scale for take picture
The scale of the image for saving and importing.
#### 1.6.1.59 Piture Scale for take picture
#### 1.6.1.60 Safety above the stone
The safety clearance above the material.
#### 1.6.1.61 Wood Thickness
The thickness of the workbench surface.
#### 1.6.1.62 Plunge into the wood
The depth of the cutting tool's plunge into the workbench.
#### 1.6.1.63 Under wood table Z position
The Z-axis coordinate for the position below the workbench.
#### 1.6.1.64 Stone thickness
The thickness of the stone material.
#### 1.6.1.65 Vacuum 1 x offset
The X-axis offset of vacuum cup 1 relative to the center of rotation.
### 1.6.1 General (66-81)
![1.6.1_e.png](/aitalmac-ui/1.6.1_e.png)
#### 1.6.1.66 Vacuum 1 Y Offset
The Y-axis offset of vacuum cup 1 relative to the center of rotation.
#### 1.6.1.66 Vacuum 1 y offset
#### 1.6.1.67 Vacuum 1 Width
#### 1.6.1.67 Vacuum 1 width
The width of vacuum cup 1.
#### 1.6.1.68 Vacuum 1 Height
The height of vacuum cup 1.
#### 1.6.1.68 Vacuum 1 height
#### 1.6.1.69 Vacuum 2 x offset
@ -2087,9 +1871,7 @@ The height of vacuum cup 1.
#### 1.6.1.93 Vacuum 8 height
#### 1.6.1.94 Vacuum Safety Over Stone
The safety clearance distance of vacuum cups above the stone material.
#### 1.6.1.94 Vacuum safety over stone
#### 1.6.1.95 Vacuum Z position

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