Patent application number | Description | Published |
20120120198 | THREE-DIMENSIONAL SIZE MEASURING SYSTEM AND THREE-DIMENSIONAL SIZE MEASURING METHOD - A system for measuring a three-dimensional (3D) size of an object in a space according to an indicating mark is provided, wherein the indicating mark is used to point to one of a plurality of measuring points on the object. The system includes an image capturing module, an spatial vector calculating module, and a measuring module. The image capturing module captures an image of the space. The spatial vector calculating module respectively calculates a spatial vector corresponding to the indicating mark when the indicating mark is used to point to each of the measuring points on the object in the image. The measuring module calculates spatial coordinates of the measuring points according to the spatial vectors so as to obtain the 3D size of the object. | 05-17-2012 |
20120136628 | MACHINE TOOL DATA ACQUISITION DEVICE AND METHOD - A machine tool data acquisition device for processing a plurality of far-end acquisition commands transmitted from a plurality of monitoring devices is provided. The far-end acquisition commands are used for requesting a plurality of parameters from a machine tool, and the plurality of parameters constitute a combination of parameters, including: a monitoring device connection module for receiving the plurality of far-end acquisition commands from the plurality of monitoring devices; a command establishing module for establishing a plurality of near-end acquisition commands according to the far-end acquisition commands, wherein there is an sequence among the plurality of near-end acquisition commands, and each near-end acquisition command corresponds to a plurality of parameter acquisition requests used for requesting and acquiring all of the parameters of one combination of parameters; and a machine tool connection module for sequentially transmitting the parameter acquisition requests corresponding to the near-end commands to the machine tool according to the sequence among the near-end acquisition commands, and acquiring the parameters corresponding to the parameter acquisition requests from the machine tool. | 05-31-2012 |
20130145372 | EMBEDDED SYSTEMS AND METHODS FOR THREADS AND BUFFER MANAGEMENT THEREOF - Embedded systems are provided, which includes a processing unit and a memory. The processing unit simultaneously executes first thread having a flag for performing a data acquisition operation and second thread for performing a data process and output operation for the acquired data in the data acquisition operation. The flag is used for indicating whether a state of the first thread is in an execution state or a sleep state. The memory which is coupled to the processing unit provides a shared buffer for the first and second threads. Before executing the second thread, the flag is checked to determine whether to execute the second thread, wherein the second thread is executed when the flag indicates the sleep state while execution of the second thread is suspended when the flag indicates the execution state. | 06-06-2013 |
20140136911 | REMOTE MONITORING SYSTEMS AND RELATED METHODS AND RECORDING MEDIUMS USING THE SAME - Remote monitoring systems for remotely monitoring execution status of a PLC (Programmable Logic controller) program of a machine include a storage module, a parameter retrieval module and a monitoring module. The storage module stores ladder diagram information corresponding to a PLC source program, wherein the ladder diagram information includes PLC signal address relation information, a plurality of logic switches and a responsive collect command of each logic switch of a ladder diagram. The PLC signal address relation information indicates the relations of the logic switches on the ladder diagram. The parameter retrieval module respectively retrieves parameter data corresponding to the logic switches using the responsive collect commands. The monitoring module generates a status of ladder diagram according to the logic switches, the parameter data and the PLC signal address relation information to display the parameter data corresponding to each logic switch when the machine is executing the PLC source program. | 05-15-2014 |
20140142738 | METHOD AND SYSTEM FOR DETERMINING A STATUS OF AT LEAST ONE MACHINE AND COMPUTER READABLE STORAGE MEDIUM STORING THE METHOD - A method for determining a status of at least one machine includes the following steps: a processing unit is utilized to receive and record spindle load values of the spindle in a period of time to generate a spindle load record of the spindle, and to determine if a preset condition is matched according to the spindle load record. When the preset condition is matched, the processing unit is utilized to determine a present category corresponding to the spindle load record of the spindle, and to obtain parameter-to-be-collected information corresponding to the present category. The processing unit is utilized to obtain at least one value of at least one collected parameter of the at least one machine according to the parameter-to-be-collected information corresponding to the present category, and to determine a status of the at least one machine according to the obtained value of the at least one collected parameter. | 05-22-2014 |
20150142165 | UTILIZATION RATE CALCULATION METHOD AND SYSTEM THEREOF, EMBEDDED SYSTEM AND COMPUTER READABLE STORAGE MEDIUM - A utilization rate calculation method is disclosed. The utilization rate calculation method comprises steps as follows: scanning an operation signal of I/O ports via a I/O port capturing module; continuously receiving the operation signal via the I/O port capturing module; determining whether a machine tool is running according to the operation signal and a processing machine operation rule via a utilization rate calculation system; if the machine tool is running, recording a processing time data of the machine tool; generating a utilization rate according to the processing-time data and time data to be processed, wherein the processing-machine operation rule is a record for at least one I/O port stand for running corresponding to the machine tool which is running, and the I/O port stand for running is one of the I/O ports. | 05-21-2015 |
20150143967 | SYSTEM, CUTTER ASSEMBLY, AND METHOD FOR AUTOMATIC CHIP BREAKING AND CUTTING MACHINE SYSTEM - A system for automatic chip breaking used in a cutting machine is illustrated, wherein the cutting machine has a cutter and a spindle actuator. According to control information, the spindle actuator controls the cutter to move along with a first axis to cut a workpiece, and the chips are produced. The system for automatic chip breaking includes a signal collection device, a controller, and an actuator. The signal collection device electrically coupled to the cutting machine collects the control information. The controller electrically coupled to the signal capturing device triggers a control signal according to the control information. The actuator installed between the spindle actuator and the cutter is electrically coupled to the controller, and controls the cutter to vibrate along with a second axis according to the control signal, wherein the second axis and the first axis have a specific angle. | 05-28-2015 |
20150148922 | EMBEDDED SYSTEM, FOOL-PROOF CONTROL METHOD AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM - An embedded system is disclosed. The embedded system is used for preventing a processing machine from an abnormal phenomenon when at least one processing parameter setting value is inputted into the processing machine. The embedded system is electrically connected to the processing machine, and the processing machine comprises an input interface, a first storing medium, a first controller and a stepper motor. The embedded system comprises a second storing medium and a second controller. The second controller captures the a processing parameter setting value inputted and compares it with a security range, so as to determine whether the processing machine is able to perform process for a workpiece. When the second controller determines that the processing machine is not able to perform process for the workpiece, a stop signal is generated and transmitted to the processing machine to stop performing process for the workpiece. | 05-28-2015 |