TW201631427A - Correction system and method for thermal displacement of CNC machine tool - Google Patents

Abstract

This invention concerns the correction system and method for thermal displacement of CNC machine tool, wherein a machine and a sensor module are respectively connected through the network communication port and serial communication port of a thermal compensation processing module. The sensor module is connected to the machine to retrieve the operation status of the machine. The serial communication port transmits instant signal containing status information to the thermal compensation processing module. The thermal compensation processing module establishes an error correction module in advance by executing a regression analysis, so that the machine operates with thermal compensation processing module to directly load pre-established error correction module. Instantcorrected quantity can be instantly sent to the machine through the network communication port to directly correct within an equal distance without delays. This invention enhances the quality and efficiency of machine tool processing.

Description

Thermal displacement correction system and method for CNC machine tool

The invention relates to a CNC machine tool, which refers to a thermal displacement correction system and method of a CNC machine tool.

The machine tool is a power machine manufacturing device for precision cutting metal to produce other machines or machined metal parts. The machine tool becomes a CNC machine tool and traditional tools after configuring a Computer Numerical Control (CNC) system. CNC machine tools are more suitable for the production of small or medium-volume high-quality precision parts, and can be adapted to the production of a variety of different products. With the universality of CNC machine tools in high-speed machining applications, the machine is more suitable for mass production. The requirements for operational efficiency, accuracy, and meticulous processing are becoming more stringent, especially when the machine is used in environments with large ambient temperature changes or high temperature operating conditions.

The main reason that affects the machining accuracy of CNC tools is the thermal error caused by the thermal deformation of the machine temperature and the cutting force error caused by the force deformation caused by the cutting force of the machine. For the errors caused by these reasons, only the errors caused by these causes are only It is not only costly but also difficult to improve the accuracy of the machine by optimizing the design of the machine structure. Therefore, in the prior art, a spindle thermal displacement correction system is usually used to cope with the above error problem. The main system of the spindle thermal displacement correction system is mainly A temperature sensor is arranged on a machine, and the measurement data is collected by a microprocessor or a small PLC, and a data is calculated through correction, and then connected to a signal input port of the CNC machine tool through a signal output port. The data is transmitted in one direction, and then the axial external mechanical origin is offset to correct the machining error.

In the prior art, the CNC tool machine is used to execute the following method. The method includes the following steps: first step, reading temperature, correction switch, and correction ratio of each axis; and second step, instantaneously capturing temperature data of the spindle and the bed The third step is to calculate the data of the thermal error displacement through the PLC (Programmable Logic Controller); the fourth step is to send the data to the CNC machine tool to offset the external origin of the machine to achieve the correction; when all the steps are completed, The method will return to the second step to continue the execution, and the cycle will continue to calculate and correct the thermal error of the machining center spindle.

It can be known from the prior art that the current spindle thermal displacement correction system must continuously transmit the correction calculation data to the CNC machine tool in one direction, so the immediacy and the calculation performance are quite important, but through the above steps (first to fourth steps) It is quite time-consuming to calculate and correct the thermal error of the machining center spindle cyclically, especially when the machining type is mainly based on high-speed positioning drilling and long-time processing of continuous curved molds. If the immediacy is poor or the calculation performance is poor, it is easy to cause poor grain or step phenomenon, and even cause the machine to move axially or move too much. This will cause intermittent cutting marks on the upper surface of the workpiece, which will result in poor machining accuracy and poor texture. Such problems occur, so in the current state of the art, there is indeed a need to further propose better improvements.

The main object of the present invention is to provide a thermal displacement correction system and method for a CNC machine tool, which enables fast and instant signal transmission by means of re-planning and design of software and hardware, and through more efficient calculation and correction. The way to improve the processing quality and operational efficiency of the machine tool.

The technical means adopted to achieve the foregoing purpose is a thermal displacement correction method of the CNC machine tool, which is respectively connected to a machine table and more than one sensor through a thermal compensation processing module, and the sensor is further The machine is connected, and the thermal compensation processing module performs the following steps: receiving a thermal error measurement data obtained by the sensor sensing; loading the received data into a pre-established error correction model for immediate execution Calculating; sending an immediate correction amount and a set of execution instructions, the set of execution instructions including a variable speed command, a linear interpolation command; causing the machine to directly correct in a fast equidistant manner, the fast equidistant manner Including a variable speed correction, a linear interpolation correction.

The foregoing method mainly performs thermal error measurement on the machine in operation through the sensor to obtain state data such as temperature change or displacement change of the machine, and receives the status data by the thermal compensation processing module. Then, the received data is loaded into a pre-established error correction model for real-time calculation, and the error correction model is established by a regression analysis method, and when the thermal compensation processing module is completed, an instant is sent. Correction amount and a set of execution instructions including variable speed command and linear interpolation command to the machine, so that the machine can directly change the speed and linearity in a fast and equidistant manner according to the received group execution command and the instantaneous correction amount. Interpolation and correction to achieve the purpose of improving the quality and efficiency of tool machining.

Another technical means for achieving the foregoing objective is that the thermal displacement correction system of the aforementioned CNC machine tool comprises: a machine having a first network communication port, a bed control module and a spindle device; A sensing module has more than one sensor and a first serial communication port, wherein the sensor respectively performs thermal error measurement on the bed control module and the spindle device of the machine, and Taking a status data; a thermal compensation processing module comprising a processor, a second serial communication port, and a second network communication port, wherein the processor is in communication with the second serial port and the second a network communication port, the second network communication system is connected to the first network communication port of the machine, and the second serial communication system is connected to the first serial communication port of the sensing module to Receiving status data; wherein the processor receives the status data acquired by the sensor through the second network communication, and loads the received data into a pre-established error correction model for immediate calculation, when After the processor calculation is completed, the second network communication is passed. The message sends an instant correction and a set of first network communication instructions for executing the command to the machine. The group execution command includes a variable speed command and a linear interpolation command, so that the machine directly uses a fast equidistance. The method of correcting arithmetic processing includes a variable speed correction and a linear interpolation correction.

When the above-mentioned machine is in operation, the bed control module and the spindle device generate temperature changes or displacement changes, and the sensor of the sensing module performs instantaneous thermal error measurement and extracts state data thereof, and then The state data is provided to the processor of the thermal compensation processing module by the first serial communication, and the processor has previously established an error correction model by using a regression analysis method. Directly loaded into the error correction model and quickly calculated, and the second network communication sends an immediate correction amount and a set of execution instructions including a variable speed command and a linear interpolation command to the first of the machine The network communication 使得 enables the machine to directly change the speed correction and linear interpolation correction processing in a fast and equidistant manner to control the bed control module of the machine and the movement of the spindle device, and the lifting tool machine can be realized. The purpose of processing quality and efficiency.

For a preferred embodiment of the thermal displacement correction system of the CNC machine tool of the present invention, please refer to FIG. 1 , which includes a machine table 10 , a sensing module 20 and a thermal compensation processing module 30 . The platform 10 has a first network communication port 11, a bed control module 12 and a spindle device 13, and the bed control module 12 is connected to the spindle device 13. In this embodiment, the machine table 10 Further, a programmable logic controller (PLC) 14 is connected to a computer numerical control (CNC) unit 15, and the programmable logic controller 14 is connected to the first network communication port 11, The computer numerical control unit 15 is connected to the bed control module 12.

The sensing module 20 has one or more sensors 21 and a first serial communication port 22, and the sensor 21 can obtain a thermal error measurement data by sensing, which is the sense in this embodiment. The detector 21 performs thermal error measurement on the bed control module 12 of the machine 10 and the spindle device 13, respectively, and generates temperature changes or displacement changes according to the bed control module and the spindle device. In the embodiment, the sensing module 20 further includes a signal conversion unit 23, and the signal conversion unit 23 is respectively connected to the sensor 21 and the first serial communication port 22, when the sensor When the signal outputted by the 21 is an analog signal, the signal can be converted into a digital signal by the signal conversion unit 23, and then sent to the thermal compensation processing module 30 by the first serial communication port 22.

In this embodiment, the sensor 21 can be a temperature sensor or a displacement sensor, and the temperature sensor is specifically configured to measure a temperature change of the heat source, and the displacement sensor transmits the eddy current through the measurement. And converted to provide displacement data, and the temperature sensor can be a temperature sensor of the type PT100.

The thermal compensation processing module 30 includes a processor 31, a second serial communication port 32, and a second network communication port 33. The processor 31 is in communication with the second serial port 32 and the second The second network communication port 33 of the thermal compensation processing module 30 is connected to the first network communication port 11 of the machine 10, and the second string of the thermal compensation processing module 30 is connected. The serial communication port 32 is connected to the first serial communication port 22 of the sensing module 20 to receive status data, and the processor 31 receives the sensor of the sensing module 20 through the second network communication port 33. 21 retrieved status data, and the processor 31 loads the received status data into a pre-established error correction model for immediate calculation, and the processor 31 has been pre-established using a regression analysis method. An error correction model is provided. When the processor 31 loads the state data into the error correction model and the calculation is completed, the second network communication port 33 of the thermal compensation processing module 30 sends an immediate correction amount and a set of presets. Executing instructions to the first network communication port 11 of the machine 10, so that the machine 10 directly corrects the arithmetic processing in a fast equidistant manner, and drives the bed control module 12 and the spindle device 13 of the machine 10.

In this embodiment, the thermal compensation processing module 30 further includes a human machine interface 34. The human machine interface 34 is coupled to the processor 31, and the user can operate or view the current machine 10 through the human machine interface 34. Operation status, temperature data, etc., and can directly input execution instructions or set other related parameters. For example, the user can input a variable speed command, a linear interpolation command or a parameterized equalization command on the man-machine interface 34. The machine 10 performs corresponding correction in a fast equidistant manner, and the fast equidistant manner may include a variable speed correction, a linear interpolation correction or a parametric equalization correction.

During the operation of the machine 10, if the machine 10 receives the preset or user input execution command including the variable speed command, and corrects the rotation speed, that is, when the spindle device 13 rotates, a rotation centrifugal force error is performed. The correction processing is performed; if the surface roughness of the workpiece is not uniform due to the correction time, the instantaneous correction amount is greater than a preset limit parameter, so the execution instruction received by the machine 10 includes the parameterization. The equal-difference instruction corrects the parametric difference, that is, according to the relative relationship of the instantaneous correction amount, the arithmetic progression is corrected, and the correction period is refined and the correction amount is evenly divided to make the correction amount The precision of the machine 10 is more stable during processing, and it is easy to control the quality, so that the product can be improved in production yield and efficiency; in order to make the calculated instantaneous correction amount more suitable for even distribution on the surface of the workpiece, when The execution command received by the machine 10 further includes the linear interpolation instruction, and the linear interpolation correction is performed, and the correction time according to the linear interpolation period is matched with each instant. A positive amount to modulate, i.e. to achieve a workpiece was made uniform texture results.

Furthermore, the first network communication port 11 of the machine 10 and the second network communication port 33 of the thermal compensation processing module 30 can respectively be an Ethernet interface, and the sensing module 20 is The serial communication port 22 and the second serial communication port 32 of the thermal compensation processing module 30 can each be an RS485 interface port; therefore, when the temperature sensor of the model PT100 is installed in the embodiment, The spindle device 13 of the machine 10 and the bed control module 12 perform temperature measurement, and the temperature data of each measurement point is passed through a RS485 interface with a half-duplex multi-point communication standard (38400 bps), and Modbus communication protocol is transmitted to the thermal compensation processing module 30;

The thermal compensation processing module 30 receives the temperature data transmitted via the RS485 interface, and then calculates the built-in macro language by the processor 31, and generates an instantaneous correction amount representing the error correction value, and simultaneously records The temperature compensation and correction amount, the thermal compensation processing module 30 transmits the instantaneous correction amount and the execution instruction to the programmable logic controller 14 of the machine 10 through the Ethernet interface 10 (10 Mbps) for correction processing, and The computer numerical control unit 15 drives the bed control module 12 and the spindle device 13 of the machine 10 to correct the offset of the axial external mechanical origin to correct the machining error, thereby improving the machining quality and efficiency of the tool. The purpose.

Please refer to FIG. 2 and FIG. 3 for another preferred embodiment of the thermal displacement correction system of the CNC machine tool of the present invention. The main technical content is substantially the same as that of the previous embodiment, but the sensing module 20 Different from the thermal compensation processing module 30, in the embodiment, the sensing module 20 includes a plurality of sensors 21 and a plurality of signal conversion units 23, and the signal conversion units 23 and a sensing unit respectively The first serial communication port 22 of the sensing module 20 is connected to the signal converting units 23, and the number of the sensors 21 is expanded in this manner, and is set on the machine 10 for thermal error. The human interface 34 of the thermal compensation processing module 30 is mainly composed of an input unit 341 and a display unit 342. The input unit 341 and the display unit 342 are respectively connected to the processor 31, and the user is connected. The input unit 341 can directly input an execution command or set other related parameters, and view the current operating state, temperature data, and the like of the current machine 10 on the display unit 342;

As shown in FIG. 4, the processor 31 includes a temperature signal capturing unit 311, a parameter setting unit 312, and a correction calculating unit 313. The parameter setting unit 312 and the temperature signal capturing unit 311 and the correction calculating unit respectively. The temperature signal extraction unit 311 and the correction calculation unit 313 are respectively connected to the second serial communication port 32 and the second network communication port 33; wherein the temperature signal acquisition unit 311 receives The state data captured by the sensor 21 is transmitted to the correction calculation unit 313 by the parameter setting unit 312 to the received state data, the execution command, or other related parameters set by the user, and the correction calculation unit 313 Loading an error correction model pre-established by the regression analysis method and performing an instant calculation. When the calculation is completed, an immediate correction amount and a set of presets are sent through the second network communication port 33 of the thermal compensation processing module 30. The execution command is sent to the machine 10, and the machine 10 is directly subjected to the correction operation in a fast equidistant manner.

According to the specific application manner and description of the preferred embodiments of the present invention, the thermal displacement correction method of the CNC machine tool can be further summarized. As shown in FIG. 5, the thermal compensation processing module 30 is respectively connected to a thermal compensation processing module 30. The machine 10 has more than one sensor 21, and the sensor 21 is connected to the machine 10, and the thermal compensation processing module 30 performs the following steps: receiving the sensor 21 to the machine 10 Performing the state data obtained by the thermal error measurement (S51); loading the received state data into a pre-established error correction model for immediate calculation (S52) to generate an immediate correction amount and a set of execution instructions, The group execution instruction includes a variable speed command and a linear interpolation command; the instantaneous correction amount and the group execution instruction are sent to the machine 10 (S53). In this embodiment, the group execution instruction may further include a parameterization, etc. a difference instruction; when the machine 10 receives the immediate correction amount and the group execution instruction, and directly performs a corresponding correction in a fast equidistant manner according to the execution instruction (S54), the fast equidistant manner includes One The variable speed correction and a linear interpolation correction may further include a parametric equalization correction in this embodiment.

Furthermore, in the above step, the step of "putting the received state data into a pre-established error correction model for immediate calculation (S52)" further provides a pre-established error correction model flow in the embodiment. As shown in FIG. 6, the method further includes the following steps: receiving status information obtained by the sensor 21 for performing thermal error measurement on the machine 10 (S61); transmitting a driving signal to the machine 10 to drive the The spindle device 13 performs high speed operation (S62); while the spindle device 13 is operating at high speed, the state data is retrieved through the sensor 21 (S63); and a regression analysis method is performed according to the retrieved state data to establish the error. The correction model is obtained (S64); the error correction model is optimally adjusted and the verification analysis result is obtained (S65).

When the thermal compensation processing module 30 uses the regression analysis method to pre-establish the error correction model, and directly loads the state data into the error correction model and quickly calculates it, so that the machine 10 is in a fast and equidistant manner. Correction processing is not only aimed at improving the machining quality and efficiency of the tool, but also based on the use of I/O digital signals or A/D analog signals for transmission between the traditional machines 10, and the use of serial communication. , network communication, improve transmission speed, and instant calculation and correction, the system's software and hardware architecture is more efficient than the existing technology, the operation speed and transmission data are faster, the software modification and adjustment parameters are easy. Etc.

10‧‧‧ machine
11‧‧‧First Internet Communication埠
12‧‧‧ Bed Control Module
13‧‧‧ spindle device
14‧‧‧Programmable Logic Controller
15‧‧‧Computer numerical control unit
20‧‧‧Sensor module
21‧‧‧ Sensors
22‧‧‧First serial communication埠
23‧‧‧Signal Conversion Unit
30‧‧‧ Thermal compensation processing module
31‧‧‧ Processor
311‧‧‧Temperature signal acquisition unit
312‧‧‧ parameter setting unit
313‧‧‧Revised calculation unit
32‧‧‧Second serial communication埠
33‧‧‧Second Internet Protocol埠
34‧‧‧Human Machine Interface
341‧‧‧ input unit
342‧‧‧Display unit

1 is a system architecture diagram of a preferred embodiment of the present invention. 2 is a block diagram of a sensing module in accordance with another preferred embodiment of the present invention. 3 is a block diagram of a thermal compensation processing module in accordance with another preferred embodiment of the present invention. 4 is a block diagram of a processor in accordance with another preferred embodiment of the present invention. FIG. 5 is a flow chart of a thermal displacement correction method according to a preferred embodiment of the present invention. 6 is a flow chart of establishing an error correction model according to a preferred embodiment of the present invention.

10‧‧‧ machine

11‧‧‧First Internet Communication埠

12‧‧‧ Bed Control Module

13‧‧‧ spindle device

14‧‧‧Programmable Logic Controller

15‧‧‧Computer numerical control unit

20‧‧‧Sensor module

21‧‧‧ Sensors

22‧‧‧First serial communication埠

23‧‧‧Signal Conversion Unit

30‧‧‧ Thermal compensation processing module

31‧‧‧ Processor

32‧‧‧Second serial communication埠

33‧‧‧Second Internet Protocol埠

34‧‧‧Human Machine Interface

Claims (10)

A thermal displacement correction method for a CNC machine tool, which is respectively connected to a machine table and more than one sensor through a thermal compensation processing module, and the sensor is connected to the machine table, and is processed by the heat compensation The module performs the following steps: receiving a thermal error measurement data obtained by the sensor sensing; loading the received data into a pre-established error correction model for immediate calculation; sending an immediate correction amount and a set of execution The instruction includes a variable speed command and a linear interpolation command; the machine is directly corrected in a fast equidistant manner, and the fast equidistant manner includes a variable speed correction and a linear interpolation correction. . The hot-displacement correction method of the CNC machine tool according to claim 1, wherein the received data is loaded into a pre-established error correction model in the above step to perform an instant calculation step, wherein a pre-established error correction model is provided. The method further includes the following steps: receiving the information of the sensor for thermal error measurement; sending a driving signal to the machine to drive the spindle; and reading the state data while operating; performing a regression analysis to establish the Error correction model; verify the analysis results. The hot-displacement correction method of the CNC machine tool according to claim 1 or 2, wherein the set of execution instructions further comprises a parametric difference instruction; the fast equidistant manner further comprises a parametric equalization correction. A thermal displacement correction system for a CNC machine tool, comprising: a machine having a first network communication port, a bed control module and a spindle device; a sensing module having more than one a sensor and a first serial communication port, wherein the sensor respectively performs thermal error measurement on the bed control module and the spindle device of the machine, and extracts state data thereof; a thermal compensation processing module The method includes a processor, a second serial communication port, and a second network communication port, wherein the processor is respectively connected to the second serial port communication port and the second network communication port, the second network The communication system is connected to the first network communication port of the machine, and the second serial communication system is connected to the first serial communication port of the sensing module to receive status data; wherein the processor transmits the The second network communication receives the status data captured by the sensor, and loads the received data into a pre-established error correction model for immediate calculation. When the calculation is completed, the second network is transmitted through the second network. Road communication 埠 sends an instant correction and a set of execution instructions After the first network communication to the machine, the group execution command includes a variable speed command and a linear interpolation command, so that the machine directly performs a correction operation in a fast equidistant manner, the fast isometric The method includes a variable speed correction and a linear interpolation correction. The thermal displacement correction system of the CNC machine tool according to claim 4, the processor includes a temperature signal acquisition unit, a parameter setting unit, and a correction calculation unit, and the parameter setting unit and the temperature signal acquisition unit respectively The temperature calculation unit is connected to the second serial communication port and the second network communication port; wherein the temperature signal acquisition unit receives the sense The state data captured by the detector is transmitted to the correction calculation unit by the parameter setting unit to receive the state data, the execution instruction or other related parameters set by the user, and the correction calculation unit loads a transmission regression The error correction model pre-established by the analysis method is performed and calculated on the fly. The thermal displacement correction system of the CNC machine tool of claim 5, the sensing module further includes a signal conversion unit, wherein the signal conversion unit is respectively connected to the sensor and the first serial communication port. When the signal output by the sensor is an analog signal, the signal conversion unit can be converted into a digital signal. The thermal displacement correction system of the CNC machine tool according to claim 6, wherein the sensor can be a temperature sensor or a displacement sensor, wherein the temperature sensor is used for measuring a temperature change, the displacement The sensor system provides displacement data. The thermal displacement processing system of the CNC machine tool of claim 7, further comprising a human machine interface, which is mainly composed of an input unit and a display unit, the input unit and the display unit They are respectively connected to the processor, and directly input an execution command or set other related parameters through the input unit, and view the current operating state and temperature data of the current machine in the display unit. The thermal displacement correction system of the CNC machine tool according to claim 8, wherein the sensing module further comprises a plurality of sensors and a plurality of signal conversion units, and the signal conversion units are respectively coupled to a sensor The first serial communication system of the sensing module is connected to the signal conversion units, and the number of sensors is expanded in this manner. The thermal displacement correction system of the CNC machine tool according to any one of claims 4 to 9, wherein the set of execution instructions further comprises a parameterized equalization instruction; the fast equidistant manner further comprising a parameterized equalization Correction.