A parameter setting support device is provided with a parameter setting interface unit configured to display an input screen for setting a parameter of a function of a numerical controller and accept the setting of the value of the parameter of the function to be set, a related parameter identification unit configured to identify a related function related to the parameter of the settable function, based on the relationship between the parameter and each function of the numerical controller, and a setting range identification unit configured to identify a setting range of the parameter of the related function by calculating a conditional expression predetermined for the setting range of the parameter of the related function. The parameter setting interface unit displays the setting range of the parameter of the related function identified by the setting range identification unit.

An HVAC controller operable in an occupied mode and an unoccupied mode and includes a touch-responsive display. The controller displays an informational region having non-interactive user interface elements, a control region having interactive user-interface elements and an override region having an occupied status display and an occupancy override control having an override state and a non-override state. The visual properties of the variable opacity region is manipulated to guide the user during use of the HVAC controller.

A processing apparatus includes a chuck table for holding a workpiece thereon, a processing unit for processing the workpiece held on the chuck table, a touch panel for entering processing conditions, and a control unit for controlling the touch panel. The control unit controls the touch panel to display a plurality of input fields corresponding to a plurality of items included in the processing conditions, and controls the touch panel to display a copy processing key and a paste processing key when one of the input fields is selected. The control unit copies information entered in the selected one of the input fields when the copy processing key is selected, and enters information that has been copied in advance into the selected one of the input fields when the paste processing key is selected.

Systems and methods define a stimulation pattern for a juvenile product utilizing a mobile device that executes a mobile application that is linked to the juvenile product. The method comprises the step of recognizing, by the mobile device when executing the mobile app, the user-defined stimulation pattern for the juvenile product. The stimulation pattern can be a vibration pattern or a motion pattern, and can be detected in a number of different ways by the mobile device. The method further comprises the step of determining control signals for the actuator(s) of the juvenile product based on the user-defined stimulation pattern that is recognized by the mobile device. The method further comprises the step of, in response to receiving a command to execute the user-defined stimulation pattern, controlling the actuator(s) of the juvenile product based on the stored control signals for the user-defined stimulation pattern.

A portable safety control device for use with a portable electronic device to communicate with an industrial machine. The control device includes a body having gripping portion for engagement by a human hand and a supporting portion for engagement with the portable electronic device. In one example, separate enabling and emergency stop switches are positioned on the body proximate the gripping portion within reach of the hand engaged with the gripping portion, and is configured for ease of use by left or right-handed users. The supporting portion is configured and oriented to rest on the forearm of an operator. A control circuit is used to communicate with both the portable electronic device and the industrial machine controller.

A positional information display system includes a control device, a conversion information calculation device and an image information control device, in which the conversion information calculation device has a conversion information calculation portion which calculates conversion information representing a position and/or posture of a first coordinate system on a second coordinate system with a coordinate value of each axis of an industrial machine as a variable; and the image information control device has a coordinate information conversion portion which calculates a position and/or posture on the second coordinate system using conversion information and a coordinate value of each axis; a positional information calculation data setting portion which sets calculation data of positional information for visually displaying the position and/or posture in the first coordinate system by the third coordinate system of a display device; and a positional information display data calculation portion which calculates display data of the positional information.

A control method for a processing apparatus includes the steps of suspending a processing operation of a processing unit during the formation of a processed groove and then imaging the processed groove by using an imaging unit to obtain a detected image, inspecting the condition of the processed groove according to the detected image, inputting a selected one of plural parameters into an input area displayed on a touch panel from an operator in adjusting the parameters to optimize inspection conditions, moving an input cursor from the input area according to the input of the selected parameter, and executing the inspection of the processed groove by using the selected parameter input in the input area.

A portable safety control device for use with a portable electronic device to communicate with an industrial machine. The control device includes a body having gripping portion for engagement by a human hand and a supporting portion for engagement with the portable electronic device. In one example, separate enabling and emergency stop switches are positioned on the body proximate the gripping portion within reach of the hand engaged with the gripping portion, and is configured for ease of use by left or right-handed users. The supporting portion is configured and oriented to rest on the forearm of an operator. A control circuit is used to communicate with both the portable electronic device and the industrial machine controller.

To provide a machine teaching terminal, a machine, a program, and a safety confirmation method capable of ensuring the safety of a worker without providing an additional device or the like. A machine teaching terminal communicably connected to a robot so as to be used for teaching the robot within a work area of the robot includes a touch panel display configured to accept input performed by a worker, an input detection part configured to detect input to the touch panel display, an abnormality detection part configured to detect an abnormal state on the basis of the detection by the input detection part, and an abnormal signal transmission part configured to transmit, in the case where the abnormality detection part detects the abnormal state, a signal indicating the abnormal state to the robot.

An operation device which can reliably prevent any motion of a robot in the real space unintended by the user. An operation device includes a touch screen to display an image of a robot model and to receive a touch input, a model motion execution section to cause the robot model to make a motion in response to a touch input made by touching a surface of the touch screen, a robot motion button for causing the robot to make a motion in the real space, a motion input detection section to detect an input to the robot motion button, and a real machine motion command section to output a command to cause the robot to make an identical motion in the real space to the motion of the robot model executed by the model motion execution section as long as inputs to the robot motion button are continuously detected.