CN2705264Y - Computer auxiliary detector facing to grinding process optimum - Google Patents
Computer auxiliary detector facing to grinding process optimum Download PDFInfo
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- CN2705264Y CN2705264Y CNU2004200230575U CN200420023057U CN2705264Y CN 2705264 Y CN2705264 Y CN 2705264Y CN U2004200230575 U CNU2004200230575 U CN U2004200230575U CN 200420023057 U CN200420023057 U CN 200420023057U CN 2705264 Y CN2705264 Y CN 2705264Y
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Abstract
The utility model discloses a kind of computer-aided detection device of optimizing towards grinding process.Comprise detection signal pre-processed board module; Be used to expand the expansion board module of external bus; The intelligent mainboard module that control data is gathered and data are handled, preserved; Liquid crystal display and keyboard processing module; Power down protection and voltage transformation module.Slave computer by at a high speed, intelligent checking system bears the real-time data acquisition of the grinding machine main motor current and the amount of feeding, and the curve negotiating large-screen lc of amount of feeding shift value and main motor current value shown; Host computer is responsible for the correlation analysis of error characteristics analysis and the amount of feeding and main motor current.Realize high-speed communication with Ethernet, RS-232 interface or RS-485 interface between the upper and lower machine.
Description
Affiliated technical field
The utility model is detection and the analytical system about feeding grinder amount and grinding machine main motor current presence.
Background technology
Grinding machine plays crucial effects as the key equipment of machine components processing to guaranteeing product quality, thereby people's attention extremely.Advanced numerically control grinder can be controlled by predetermined feed motion rule, can significantly reduce human error, stablize crudy.Yet the feed motion rule is provided with if the size scattered error of preceding working procedure is big when unreasonable, still is difficult to reach due effect.Therefore, how according to the actual conditions of producing, setting up rational feed motion rule, make the workpiece to be machined optimal quality, is a good problem to study.According to the survey, still lack the effective means or the accessory system that can address this problem in the market, this has become the bottleneck that the restriction Grinding Machining Quality further improves.
Summary of the invention
The purpose of this utility model is to provide a kind of computer-aided detection device of optimizing towards grinding process, in order to the technological parameter that influence rule, optimization grinding, the raising Grinding Machining Quality of research feeding grinder parameter to workpiece (lasso) crudy.
In order to achieve the above object, the utility model adopts following technical scheme, and it comprises:
1) detection signal pre-processed board module: comprise an end and first collection plate that sensor signal is connected, the other end is connected with a signal input part of expansion board that detects the feeding grinder amount; One end and second collection plate that sensor signal is connected, the other end is connected with another signal input part of expansion board that detects grinding machine main motor current amount;
2) expansion board module: the expansion board that comprise that two inputs are connected with two collection plates respectively, two outputs is connected with multiway analog switch in the intelligent mainboard module respectively;
3) intelligent mainboard module: the output that comprises multiway analog switch connects the data acquisition single-chip microcomputer through low-pass filter circuit, modulus A/D change-over circuit, the multichannel analog signals input termination expansion board of multiway analog switch, the control input end of multiway analog switch connects the data acquisition single-chip microcomputer; The data acquisition single-chip microcomputer is communicated by letter by internal serial bus with the data processing single chip; Data acquisition single-chip microcomputer and data processing single chip are connected with separately monitor circuit respectively; The data processing single chip connects first network interface through expansion board respectively and also communicates by letter with host computer with second and third network interface; The data I/O end of the data I/O end of data storage card, the data I/O end of data storage and time chip is connected with data processing single chip address/data signal end by internal data bus, the address input end of data storage card, the address input end of data storage are connected by the address/data signal end of address latch and data processing single chip respectively, and the sheet choosing end of the sheet choosing end of data storage card, the sheet choosing end of data storage, time chip is connected by the chip selection signal end of address decoder and data processing single chip respectively;
4) show and the keyboard processing module: button processing single chip one end is connected with push button signalling, and the other end is connected with the data processing single chip; The data I/O end of LCD MODULE is connected with data processing single chip address/data signal end by internal data bus, the address input end of LCD MODULE is connected by the address/data signal end of address latch and data processing single chip, and the sheet choosing end of LCD MODULE is connected by the chip selection signal end of address decoder and data processing single chip;
5) power down protection and voltage transformation module: the input of power switch is connected with alternating voltage, a road of output is connected with+24V voltage conversion circuit, another road of output is connected with the power down protection circuit, is connected with the data processing single chip by power-fail detection circuit; The power down protection circuit output end connects+the 5V voltage conversion circuit after, connect respectively+15V and-the 15V voltage conversion circuit and-the 5V voltage conversion circuit.
The useful effect that the utlity model has is: this system is a kind of upper and lower microsystem, can realize the network high-speed communication therebetween.Bear the real-time data acquisition and the supervision of grinding machine running status by high speed, intelligent checking system with slave computer; Be responsible for the error characteristics analysis with host computer, the correlation analysis of the amount of feeding and main motor current and feeding parameter are provided with impact analysis and the process parameter optimizing to workpiece quality.This system adopts displacement of the lines differential transformer LVDT, transformer current checkout gear, with instrument amplifier analog signal is implemented conditioning and amplify processing, expansion bus by expansion slot on the expansion board is connected to intelligent mainboard again, selection and A/D conversion by means of data acquisition Single-chip Controlling analog signal, by means of the data processing single chip data that collect are preserved, and amount of feeding shift value that collects and main motor current value are shown with the curve negotiating large-screen lc.Slave computer can be by Ethernet or RS-232 network interface or RS-485 network interface and host computer maintenance high-speed communication, thereby transfer data to PC, further analyze, calculate relevant parameter by PC, carry out analysis, diagnosis, working procedure parameter optimization and the quality control in mismachining tolerance source.
Description of drawings
Fig. 1 is an overall circuit modular structure block diagram of the present utility model;
Fig. 2 is an analog signal pre-processed board structured flowchart;
Fig. 3 is the expansion board module frame chart;
Fig. 4 is analog signal selection and A/D change-over circuit figure;
Fig. 5 is communicating circuit figure between single-chip microcomputer;
Fig. 6 is that network function, Presentation Function, keypad function, the data in the intelligent mainboard are preserved the processing capacity circuit diagram;
Fig. 7 is power down protection and voltage conversion circuit figure.
Among the figure: a; detection signal pre-processed board module, b; the expansion board module, c; the intelligence mainboard module; d; show and the keyboard processing module e; power down protection and voltage transformation module, 1; first collection plate; 2; second collection plate, 3; expansion board, 4; multiway analog switch; 5; low-pass filter circuit, 6; modulus A/D change-over circuit, 7; the data acquisition single-chip microcomputer; 8; first monitor circuit; 9; the data processing single chip, 10; second monitor circuit, 11; second network interface; 12; the 3rd network interface; 13; address latch, 14 data storages, 15; data storage card; 16; time chip; 17; address decoder, 18; the button processing single chip, 19; LCD MODULE; 20 power switches; 21; first network interface, 22; the power down protection circuit, 23; + 5 voltage conversion circuits; 24; + 15V and-the 15V voltage conversion circuit; 25;-5V voltage conversion circuit, 26; + 24V voltage conversion circuit, 27; power-fail detection circuit.
The specific embodiment
As shown in Figure 1, the utility model comprises:
1) detection signal pre-processed board module a: comprise an end and first collection plate 1 that sensor signal is connected, the other end is connected with a signal input part of expansion board 3 that detects the feeding grinder amount; One end and second collection plate 2 that sensor signal is connected, the other end is connected with another signal input part of expansion board 3 that detects grinding machine main motor current amount.Detect the sensor signal of feeding grinder amount and import first collection plate 1, through the signal amplification back input expansion board 3 of LVDT conditioning and signal amplification circuit.Detect the sensor signal of grinding machine main motor current amount and select back input expansion board 3 by second collection plate 2.
2) expansion board module b: the expansion board 3 that comprise that two inputs are connected with collection plate 1,2 respectively, two outputs is connected with multiway analog switch 4 among the intelligent mainboard module c respectively.Be input to multiway analog switch 4 among the intelligent mainboard module c by the signal of the signal of collection plate 1 output and collection plate 2 outputs by expansion board 3.
3) intelligent mainboard module c: the output that comprises multiway analog switch 4 connects data acquisition single-chip microcomputer 7 through low-pass filter circuit 5, modulus A/D change-over circuit 6, the multichannel analog signals input termination expansion board 3 of multiway analog switch 4, the control input end of multiway analog switch 4 connects data acquisition single-chip microcomputer 7; Data acquisition single-chip microcomputer 7 and data processing single chip 9 are communicated by letter by internal serial bus; Data acquisition single-chip microcomputer 7 and data processing single chip 9 are connected with 10 with separately monitor circuit 8 respectively; Data processing single chip 9 connects first network interface 21 and communicates by letter with host computer with second and third network interface 11,12 through expansion board 3 respectively; The data I/O end of data storage card 15, the data I/O end of data storage 14 and the data I/O end of time chip 16 are connected with data processing single chip 9 address/data signal ends by internal data bus, the address input end of data storage card 15, the address input end of data storage 14 is connected by the address/data signal end of address latch 13 and data processing single chip 9 respectively, the sheet choosing end of data storage card 15, the sheet choosing end of data storage 14, the sheet choosing end of time chip 16 is connected by the chip selection signal end of address decoder 17 and data processing single chip 9 respectively.The signal of the signal of collection plate 1 output and collection plate 2 outputs is all by entering multiway analog switch 4 after expansion board 3 outputs, data acquisition single-chip microcomputer 7 selects one tunnel analog signal to output to low-pass filter circuit 5 by the control input end, input modulus A/D change-over circuit 6 behind the filtering radio-frequency component wherein, the output data signal is to data acquisition single-chip microcomputer 7 after the analog-to-digital conversion; By the internal data universal serial bus, the data that data acquisition single-chip microcomputer 7 collects are sent into data processing single chip 9 and are handled; The nominal data of data processing single chip 9 is sent into and is sent into first monitor circuit 8 again behind the data acquisition single-chip microcomputer 7 and preserve; The nominal data of data processing single chip 9 is sent into second monitor circuit 10 and is preserved; Data processing single chip 9 connects first network interface 21 and second and third network interface 11,12 through expansion board 3 respectively and communicates by letter with host computer; Data processing single chip 9 provides address signal by address latch 13 to data storage card 15, data storage 14, data processing single chip 9 provides chip selection signal by address decoder 17 to data storage card 15, data storage 14, time chip 16, by internal data bus, data processing single chip 9 and data storage card 15, data storage 14, time chip 16 are realized bidirectional data transfers.
4) show and keyboard processing module d: button processing single chip 18 1 ends are connected with push button signalling, and the other end is connected with data processing single chip 9; The data I/O end of LCD MODULE 19 is connected with data processing single chip 9 address/data signal ends by internal data bus, the address input end of LCD MODULE 19 is connected by the address/data signal end of address latch 13 and data processing single chip 9, and the sheet choosing end of LCD MODULE 19 is connected by the chip selection signal end of address decoder 17 and data processing single chip 9.Push button signalling input button processing single chip 18 is handled through keyboard coding, and the key value is sent into data processing single chip 9; Data processing single chip 9 provides address signal by address latch 13 to LCD MODULE 19, data processing single chip 9 provides chip selection signal by address decoder 17 to LCD MODULE 19, by internal data bus, data processing single chip 9 and LCD MODULE 19 are realized bidirectional data transfers.
5) power down protection and voltage transformation module e: the input of power switch 20 is connected with alternating voltage, a road of output is connected with+24V voltage conversion circuit 26, another road of output is connected with power down protection circuit 22, is connected with data processing single chip 9 by power-fail detection circuit 27; Behind power down protection circuit 22 output termination+5V voltage conversion circuits 23, connect respectively+15V and-15V voltage conversion circuit 24 and-5V voltage conversion circuit 25.220V voltage is through power switch 20 conversion output+12V and+30V voltage, + 12V voltage input power-fail detection circuit 27, when power switch produces power-down conditions, interrupt signal of power-fail detection circuit 27 outputs is to data processing single chip 9, and data processing single chip 9 enters interrupt routine and carries out data preservation processing; Power down protection circuit 22 play the effect of interim power supply and power to system, thereby the data processing single chip can be carried out data preservation work when Switching Power Supply produces power-down conditions; The supply voltage of+5V voltage conversion circuit 23 general+12V is converted to the VCC voltage output of system standard+5V, + 15V and-15V voltage conversion circuit 24 with the VCC voltage transitions be+15V and-15V voltage exports,-5V voltage conversion circuit 25 is-output of 5V voltage that the supply voltage of+24V voltage conversion circuit 26 general+30V is converted to+output of 24V voltage with the VCC voltage transitions.
As shown in Figure 2, first collection plate 1 among the detection signal pre-processed board module a: comprise the ZHDT-I type LVDT module that an end is connected with the sensor signal that detects the feeding grinder amount, its output termination instrument amplifier INA114 chip; The zeroing circuit that is made of capacitor C 3, capacitor C 4, resistance R 9, R10, R11 connects the IN+ end and the IN-end of instrument amplifier INA114 chip; Electric source filter circuit that constitutes by capacitor C 7, C8 and the positive and negative terminal that is connected on the INA114 chip by the electric source filter circuit that capacitor C 5, C6 constitute respectively; The multiplication factor circuit that is made of resistance R 12, R13, R14 is connected on the RA1 end and the RA2 end of INA114 chip; Filter circuit one end that is made of capacitor C 9, resistance R 15 is connected with the VO end with the VREF end of INA114 chip, and the other end selects the back by a port output among AIN0~AIN7 by crossover sub CON3; Second collection plate 2: comprise crossover sub CON4, its end connects the sensor signal that detects grinding machine main motor current amount, and the other end exports expansion board 3 to by a port among AIN0~AIN7.The feeding grinder amount converts to through inductive displacement transducer after the sensor signal that detects the feeding grinder amount and exports after the input ZHDT-I type LVDT resume module, then by output analog signal SIGNAL behind the conditioning amplifying circuit; The signal condition amplifying circuit is based on instrument amplifier INA114 chip, the zeroing circuit that is made of capacitor C 3, capacitor C 4, resistance R 9, R10, R11 returns to zero to measuring-signal, by the electric source filter circuit that capacitor C 5, C6 constitute right+supply voltage of 15V carries out filtering, by the electric source filter circuit that capacitor C 7, C8 constitute right-supply voltage of 15V carries out filtering, by the multiplication factor circuit that resistance R 12, R13, R14 constitute multiplication factor is selected, at last by output analog signal SIGNAL behind the filter circuit that constitutes by capacitor C 9, resistance R 15.This signal is imported expansion board 3 by the pin that crossover sub CON3 connects among AIN0~AIN7 then; In addition, grinding machine main motor current amount is imported crossover sub CON4 convert the sensor signal that detects grinding machine main motor current amount to through power sensor after, imports expansion board 3 by the pin that crossover sub CON4 connects among AIN0~AIN7.
As shown in Figure 3, the expansion slot J1 of expansion board 3 is connected with expansion pin CON1, CON2 respectively, and all the other expansion slot J2, J3, J4, J5 also are connected with expansion pin CON1, CON2.J1 is the expansion slot on the expansion board, and the feature board (first collection plate 1, second collection plate 2, Ethernet interface 21) that needs to add inserts expansion slot, and the signal on the expansion board can link to each other with intelligent mainboard with CON2 by the expansion pin CON1 on it; One has five the same expansion slot J1, J2, J3, J4, J5 (J2, J3, J4, J5 do not draw) on the expansion board, thereby expands multiple function; Be input to expansion board by the signal of first collection plate 1 or the input of the second collection plate 2 AIN0~AIN7 analog signal pin by expansion slot, by AIN0~AIN7 analog signal pin of expansion pin CON2 analog signal outputed to the multiway analog switch 4 of intelligent mainboard c again; The signal of Ethernet interface 21 is input to expansion board by RXD, the TXD pin of expansion slot, and RXD, the TXD pin by expansion pin CON2 links to each other with the serial port of the data processing single chip 9 of intelligent mainboard again; + 15V ,-15V ,+feature board that 24V can be interpolation provides corresponding supply voltage; In addition, as required, extendible RXD1, TXD1 are as the universal serial bus of secondary meter, and they link to each other with the serial port of the data acquisition single-chip microcomputer 7 of intelligent mainboard; Extendible P2.0~P2.4, IO0 are as input and output pin, and INT3 is as IRQ, and they all link to each other with data acquisition single-chip microcomputer 7 pins.
As shown in Figure 4, the multichannel analog signals input of multiway analog switch 4 chip CD4051 is connected with multichannel analog signals, the control input end connects W77E58 data acquisition single-chip microcomputer 7, and the other end is imported the 10Vin end of modulus AD1674 chips by the low-pass filter circuit 5 that is made of resistance R 6, capacitor C 1; The BIPOFF of modulus AD1674 chip end is connected with the unipolarity circuit that is made of resistance R 3, R4, R5, or with constitute by resistance R 1, R2, an end is connected with the continuous bipolar circuit of modulus AD1674 chip; Modulus AD1674 chip is connected with W77E58 data acquisition single-chip microcomputer 7 by data wire, condition line, also is connected with W77E58 data acquisition single-chip microcomputer 7 by address latch 74HC373 chip simultaneously.The signal of the signal of collection plate 1 output and collection plate 2 outputs all enters the multiway analog switch 4 chip CD4051 of intelligent mainboard module c behind the expansion slot by expansion board 3 and the expansion pin, it selects one tunnel analog signal to pass through, and specifically selects which analog signal to be determined by control signal A, B, C from W77E58 data acquisition single-chip microcomputer 7.The low-pass filter circuit 5 that selected then analog signal input is made of resistance R 6, capacitor C 1, input modulus AD1674 chip behind the filtering radio-frequency component wherein.W77E58 data acquisition single-chip microcomputer 7 provides various control signals by address latch 74HC373 chip to modulus AD1674 chip, and modulus AD1674 chip provides status signal by STS to W77E58 data acquisition single-chip microcomputer 7; The unipolarity circuit that modulus AD1674 chip can also select the bipolar circuit that is made of resistance R 1, R2 or resistance R 3, R4, R5 to constitute; Final analog signal becomes data signal to output to W77E58 data acquisition single-chip microcomputer 7 by data wire DB0~DB8 by analog-to-digital conversion.
As shown in Figure 5, W77E58 data acquisition single-chip microcomputer 7 is connected with W77E516 data processing single chip 9 by internal serial bus; W77E58 data acquisition single-chip microcomputer 7 is connected by its SPI interface line, chip select line and first X5045 chip; W77E516 data processing single chip 9 is connected by its SPI interface line, chip select line and second X5045 chip; The reset circuit that is made of capacitor C 2, resistance R 7 is connected with first X5045 chip; The reset circuit that is made of capacitor C 30, resistance R 7,74HC04 chip is connected with second X5045 chip.W77E58 data acquisition single-chip microcomputer 7 and W77E516 data processing single chip 9 are carried out communication by internal serial bus, and the data that data acquisition single-chip microcomputer W77E58 collects can be delivered on the data processing single chip W77E516 and handle; W77E58 data acquisition single-chip microcomputer 7 is connected with first X5045 chip, the E of X5045 chip internal 512k
2PROM is used for preserving permanent data, and the X5045 chip also provides detection of power loss and watchdog function, and the reset circuit that constitutes by capacitor C 2, resistance R 7 provides reset signal for the each several part chip of system; W77E516 data processing single chip 9 is connected with second X5045 chip, the E of X5045 chip internal 512k
2PROM is used for preserving permanent data, and the X5045 chip also provides detection of power loss and watchdog function, and the reset circuit that constitutes by capacitor C 30, resistance R 7,74HC04 chip provides reset signal for the chip that the low level of system resets.
As shown in Figure 6, be that network function, Presentation Function, keypad function, data in the intelligent mainboard preserved the processing capacity circuit diagram; Comprise:
1) second network interface, 11 1 end output signal and the upper machine communications that constitute by the MAX485 chip, the other end is connected with W77E516 data processing single chip 9 with control line by string line; By the 3rd network interface 12 1 end output signal and the upper machine communications that the MAX232 chip constitutes, the other end is connected with W77E516 data processing single chip 9 by string line; First end output signal of RJ45 and upper machine communication, the other end pass through the EMCORE-AT chip, are connected with W77E516 data processing single chip 9 by expansion board 3.W77E516 data processing single chip 9 realizes networked function by serial port TXD, RXD, thus and upper machine communication.For can networking under different conditions, the utility model adopts three kinds of networking modes also to deposit, and it is selected.Realize second network interface 11 by the MAX485 chip for first kind, because it is a simplex mode, control line of W77E516 data processing single chip 9 usefulness is controlled its reception and transmission; Realize the 3rd network interface 12 by the MAX232 chip for second kind; The third realizes first network interface 21 by EMCORE-AT chip and RJ45 head, and this interface card utilizes the expansion slot in the expansion board 3 to be connected with the serial port of W77E516 data processing single chip 9 among the intelligent mainboard c.
2) AT89C2051 button processing single chip 18 1 ends are connected with push button signalling, and the other end is connected with W77E516 data processing single chip 9 with condition line by the LPT line.AT89C2051 button processing single chip 18 is finished a series of activities such as keyboard scan, keyboard coding, it realizes transfer of data by the LPT of LPT and W77E516 data processing single chip 9, and notifies W77E516 data processing single chip 9 to carry out data by the external interrupt mouth INT0 that connects W77E516 data processing single chip 9 in the mode of interrupting and accept.
3) the data I/O end of SDCFB-16 type data storage card 15, data storage 14 chips 6264 data I/O ends, the data I/O end of TRULY M240128-1A1 type LCD MODULE 19 and the data I/O end of DALLAS12887 time chip 16 are connected with the address/data signal end of W77E516 data processing single chip 9 by internal data bus DB0~DB8; After passing through A0~A3 address wire and address latch 13 chip 74HC373 are connected, the address input end of SDCFB-16 type data storage card 15 is connected with the address/data signal end of W77E516 data processing single chip 9 again; After passing through A0~A7 address wire and address latch 13 chip 74HC373 are connected, the low order address input of data storage 14 chips 6264 is connected with the address/data signal end of W77E516 data processing single chip 9 again, its high address input directly is connected with W77E516 data processing single chip 9 by A8~A12 address wire, is connected with the address/data signal end of W77E516 data processing single chip 9 after the address input end of TRULY M240128-1A1 type LCD MODULE 19 passes through the A0 address wire and address latch 13 chip 74HC373 are connected again; The chip selection signal end link address decoder 17 chip 74HC138 of W77E516 data processing single chip 9, after decoding, its Y1 end is connected with the sheet choosing end of data storage 14 chips 6264, the Y2 end is connected with the sheet choosing end of DALLAS12887 time chip 16, the Y3 end is connected with the sheet choosing end of SDCFB-16 type data storage card 15, and the Y0 end is connected with the sheet choosing end of TRULYM240128-1A1 type LCD MODULE 19.Address wire A0~A12 and chip select line Y1 connect data storage 14 chips 6264 (initial address is A000H); Chip select line Y2 connects DALLAS12887 time chip 16 (initial address is C000H); Address wire A0~A3 and chip select line Y3 connect SDCFB-16 type data storage card 15 (initial address is E000H); Address wire A0 and chip select line Y0 connect TRULYM240128-1A1 type LCD MODULE 19 (I/O address is 8000H).
As shown in Figure 7, Switching Power Supply 20 output+12V voltage is through by diode F1, F2, capacitor C 12, be connected with the MC7805 chip behind the power down protection circuit that resistance R 21 constitutes, the voltage output end process of MC7805 chip is by capacitor C 13, the filter circuit that C14 constitutes is connected with the MAX660 chip with the NR5D15 chip respectively, the NR5D15 chip voltage output end through by capacitor C 15, C16 constitutes filter circuit output, the NR5D15 chip another voltage output end through by capacitor C 17, C18 constitutes filter circuit output, and MAX660 chip voltage output is through being made of filter circuit output capacitor C 19; Switching Power Supply 20 output+12V voltage is connected with comparator LM339 chip anode after through the measuring junction circuit that is made of resistance R 18, R19, capacitor C 11, the reference edge circuit that is made of resistance R 16, R17, capacitor C 10 is connected with comparator LM339 chip negative terminal, and the output of comparator LM339 chip is connected with W77E516 data processing single chip 9; Power switch 20 output+30V voltage is connected with the MC7824 chip through the filter circuit that is made of capacitor C 21, C22, and the voltage output end of MC7824 chip passes through by capacitor C 23, C24 and constitutes filter circuit output.Switching Power Supply will import+the 220V voltage transitions for+12V and+output of 30V voltage; In power-fail detection circuit, the measuring junction circuit input comparator LM339 that+12V voltage constitutes through resistance R 18, R19, capacitor C 11, the reference edge circuit input comparator LM339 that reference voltage V CC constitutes via resistance R 16, R17, capacitor C 10, the signal of comparator LM339 comparator output is connected to the external interrupt interface INT1 of W77E516 data processing single chip 9 as IRQ, like this, when producing power-down conditions, W77E516 data processing single chip 9 just can be received an interrupt signal, enters interrupt routine then and carries out data preservation processing.The power down protection circuit 22 that the input of+12V voltage is made of diode F1, F2, capacitor C 12, resistance R 21, when producing power-down conditions, C12 plays the effect of interim power supply and powers to system, thus the data processing single chip can be carried out data preservation work.By MC7805 chip and capacitor C 13, capacitor C 14 constitute+supply voltage of 5V voltage conversion circuit general+12V be converted to system standard+the VCC voltage output of 5V; By NR5D15 chip and capacitor C 15, capacitor C 16, capacitor C 17, capacitor C 18 constitute+15V and-the 15V voltage conversion circuit with the VCC voltage transitions for+15V and-output of 15V voltage; By MAX660 chip and capacitor C 19, capacitor C 20 constitute-the 5V voltage conversion circuit is the output of-5V voltage with the VCC voltage transitions; By MC7824 chip and capacitor C 21, capacitor C 22, capacitor C 23, capacitor C 24 constitute+supply voltage of 24V voltage conversion circuit general+30V is converted to+output of 24V voltage.
Claims (7)
1, a kind of computer-aided detection device of optimizing towards grinding process is characterized in that comprising:
1) detection signal pre-processed board module (a): comprise an end and first collection plate (1) that sensor signal is connected, the other end is connected with a signal input part of expansion board (3) that detects the feeding grinder amount; One end and second collection plate (2) that sensor signal is connected, the other end is connected with another signal input part of expansion board (3) that detects grinding machine main motor current amount;
2) expansion board module (b): the expansion board (3) that comprise that two inputs are connected with collection plate (1,2) respectively, two outputs is connected with multiway analog switch (4) in the intelligent mainboard module (c) respectively;
3) intelligent mainboard module (c): the output that comprises multiway analog switch (4) connects data acquisition single-chip microcomputer (7) through low-pass filter circuit (5), modulus A/D change-over circuit (6), the multichannel analog signals input termination expansion board (3) of multiway analog switch (4), the control input end of multiway analog switch (4) connects data acquisition single-chip microcomputer (7); Data acquisition single-chip microcomputer (7) is communicated by letter by internal serial bus with data processing single chip (9); Data acquisition single-chip microcomputer (7) and data processing single chip (9) are connected with separately monitor circuit (8,10) respectively; Data processing single chip (9) connects first network interface (21) through expansion board (3) respectively and also communicates by letter with host computer with second and third network interface (11,12); The data I/O end of data storage card (15), the data I/O end of data storage (14) is connected with data processing single chip (9) address/data signal end by internal data bus with the data I/O end of time chip (16), the address input end of data storage card (15), the address input end of data storage (14) is connected by the address/data signal end of address latch (13) and data processing single chip (9) respectively, the sheet choosing end of data storage card (15), the sheet choosing end of data storage (14), the sheet choosing end of time chip (16) is connected by the chip selection signal end of address decoder (17) and data processing single chip (9) respectively;
4) show and keyboard processing module (d): button processing single chip (18) one ends are connected with push button signalling, and the other end is connected with data processing single chip (9); The data I/O end of LCD MODULE (19) is connected with data processing single chip (9) address/data signal end by internal data bus, the address input end of LCD MODULE (19) is connected by the address/data signal end of address latch (13) and data processing single chip (9), and the sheet choosing end of LCD MODULE (19) is connected by the chip selection signal end of address decoder (17) and data processing single chip (9);
5) power down protection and voltage transformation module (e): the input of power switch (20) is connected with alternating voltage, a road of output is connected with+24V voltage conversion circuit (26), another road of output is connected with power down protection circuit (22), is connected with data processing single chip (9) by power-fail detection circuit (27); Behind power down protection circuit (22) output termination+5V voltage conversion circuit (23), connect respectively+15V and-15V voltage conversion circuit (24) and-5V voltage conversion circuit (25).
2, a kind of computer-aided detection device of optimizing towards grinding process according to claim 1, it is characterized in that: first collection plate (1) in the detection signal pre-processed board module (a): comprise the ZHDT-I type LVDT module that an end is connected with the sensor signal that detects the feeding grinder amount, its output termination instrument amplifier INA114 chip; The zeroing circuit that is made of capacitor C 3, capacitor C 4, resistance R 9, R10, R11 connects the IN+ end and the IN-end of instrument amplifier INA114 chip; Electric source filter circuit that constitutes by capacitor C 7, C8 and the positive and negative terminal that is connected on the INA114 chip by the electric source filter circuit that capacitor C 5, C6 constitute respectively; The multiplication factor circuit that is made of resistance R 12, R13, R14 is connected on the RA1 end and the RA2 end of INA1 14 chips; Filter circuit one end that is made of capacitor C 9, resistance R 15 is connected with the VO end with the VREF end of INA114 chip, and the other end selects the back by a port output among AIN0~AIN7 by crossover sub CON3; Second collection plate (2): comprise crossover sub CON4, its end connects the sensor signal that detects grinding machine main motor current amount, and the other end exports expansion board (3) to by a port among AIN0~AIN7.
3, a kind of computer-aided detection device of optimizing towards grinding process according to claim 1, it is characterized in that: the expansion slot J1 of expansion board (3) is connected with expansion pin CON1, CON2 respectively, and all the other expansion slot J2, J3, J4, J5 also are connected with expansion pin CON1, CON2.
4, a kind of computer-aided detection device of optimizing towards grinding process according to claim 1, it is characterized in that: the multichannel analog signals input of multiway analog switch (4) chip CD4051 is connected with multichannel analog signals, the control input end connects W77E58 data acquisition single-chip microcomputer (7), and the other end is imported the 10Vin end of modulus AD1674 chip by the low-pass filter circuit (5) that is made of resistance R 6, capacitor C 1; The BIPOFF of modulus AD1674 chip end is connected with the unipolarity circuit that is made of resistance R 3, R4, R5, or with constitute by resistance R 1, R2, an end is connected with the continuous bipolar circuit of modulus AD1674 chip; Modulus AD1674 chip is connected with W77E58 data acquisition single-chip microcomputer (7) by data wire, condition line, also is connected with W77E58 data acquisition single-chip microcomputer (7) by address latch 74HC373 chip simultaneously.
5, a kind of computer-aided detection device of optimizing towards grinding process according to claim 1, it is characterized in that: W77E58 data acquisition single-chip microcomputer (7) is connected with W77E516 data processing single chip (9) by internal serial bus; W77E58 data acquisition single-chip microcomputer (7) is connected by its SPI interface line, chip select line and first X5045 chip; W77E516 data processing single chip (9) is connected by its SPI interface line, chip select line and second X5045 chip; The reset circuit that is made of capacitor C 2, resistance R 7 is connected with first X5045 chip; The reset circuit that is made of capacitor C 30, resistance R 7,74HC04 chip is connected with second X5045 chip.
6, a kind of computer-aided detection device of optimizing towards grinding process according to claim 1 is characterized in that:
1) second network interface (11) one end output signal and the upper machine communications that constitute by the MAX485 chip, the other end is connected with W77E516 data processing single chip (9) with control line by string line; By the 3rd network interface (12) one end output signal and the upper machine communications that the MAX232 chip constitutes, the other end is connected with W77E516 data processing single chip (9) by string line; First end output signal of RJ45 and upper machine communication, the other end pass through the EMCORE-AT chip, are connected with W77E516 data processing single chip (9) by expansion board (3);
2) AT89C2051 button processing single chip (18) one ends are connected with push button signalling, and the other end is connected with W77E516 data processing single chip (9) with condition line by the LPT line;
3) the data I/O end of the data I/O end of SDCFB-16 type data storage card (15), data storage (14) chip 6264 data I/O ends, TRULY M240128-1A1 type LCD MODULE (19) and the data I/O end of DALLAS12887 time chip (16) are connected with the address/data signal end of W77E516 data processing single chip (9) by internal data bus DB0~DB8; After passing through A0~A3 address wire and address latch (13) chip 74HC373 is connected, the address input end of SDCFB-16 type data storage card (15) is connected with the address/data signal end of W77E516 data processing single chip (9) again; After passing through A0~A7 address wire and address latch (13) chip 74HC373 is connected, the low order address input of data storage (14) chip 6264 is connected with the address/data signal end of W77E516 data processing single chip (9) again, its high address input directly is connected with W77E516 data processing single chip (9) by A8~A12 address wire, is connected with the address/data signal end of W77E516 data processing single chip (9) after the address input end of TRULY M240128-1A1 type LCD MODULE (19) passes through the A0 address wire and address latch (13) chip 74HC373 is connected again; Chip selection signal end link address decoder (17) the chip 74HC138 of W77E516 data processing single chip (9), after decoding, its Y1 end is connected with the sheet choosing end of data storage (14) chip 6264, the Y2 end is connected with the sheet choosing end of DALLAS12887 time chip (16), the Y3 end is connected with the sheet choosing end of SDCFB-16 type data storage card (15), and the Y0 end is connected with the sheet choosing end of TRULYM240128-1A1 type LCD MODULE (19).
7, a kind of computer-aided detection device of optimizing towards grinding process according to claim 1; it is characterized in that: Switching Power Supply (20) output+12V voltage is connected with the MC7805 chip after through the power down protection circuit that is made of diode F1, F2, capacitor C 12, resistance R 21; the voltage output end of MC7805 chip is connected with the MAX660 chip with the NR5D15 chip respectively through the filter circuit that is made of capacitor C 13, C14
The NR5D15 chip voltage output end through constitute filter circuit output by capacitor C 15, C16, the NR5D15 chip another voltage output end through constitute filter circuit output by capacitor C 17, C18, MAX660 chip voltage output is through being made of filter circuit output capacitor C 19; Switching Power Supply (20) output+12V voltage is connected with comparator LM339 chip anode after through the measuring junction circuit that is made of resistance R 18, R19, capacitor C 11, the reference edge circuit that is made of resistance R 16, R17, capacitor C 10 is connected with comparator LM339 chip negative terminal, and the output of comparator LM339 chip is connected with W77E516 data processing single chip (9); Power switch (20) output+30V voltage is connected with the MC7824 chip through the filter circuit that is made of capacitor C 21, C22, and the voltage output end of MC7824 chip passes through by capacitor C 23, C24 and constitutes filter circuit output.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNU2004200230575U CN2705264Y (en) | 2004-05-22 | 2004-05-22 | Computer auxiliary detector facing to grinding process optimum |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNU2004200230575U CN2705264Y (en) | 2004-05-22 | 2004-05-22 | Computer auxiliary detector facing to grinding process optimum |
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| Publication Number | Publication Date |
|---|---|
| CN2705264Y true CN2705264Y (en) | 2005-06-22 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CNU2004200230575U Expired - Lifetime CN2705264Y (en) | 2004-05-22 | 2004-05-22 | Computer auxiliary detector facing to grinding process optimum |
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| Country | Link |
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| CN (1) | CN2705264Y (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1296179C (en) * | 2004-05-22 | 2007-01-24 | 宁波摩士集团股份有限公司 | Grinding machine parameter testing and analytical system |
| CN102215100A (en) * | 2011-04-27 | 2011-10-12 | 盛科网络有限公司 | Virtual analog-to-digital conversion core device based on IEEE (Institute of Electrical and Electronic Engineers) 1588 Ethernet |
| CN104325388A (en) * | 2014-09-30 | 2015-02-04 | 无锡康柏斯机械科技有限公司 | Structure of grinding machine controller |
-
2004
- 2004-05-22 CN CNU2004200230575U patent/CN2705264Y/en not_active Expired - Lifetime
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1296179C (en) * | 2004-05-22 | 2007-01-24 | 宁波摩士集团股份有限公司 | Grinding machine parameter testing and analytical system |
| CN102215100A (en) * | 2011-04-27 | 2011-10-12 | 盛科网络有限公司 | Virtual analog-to-digital conversion core device based on IEEE (Institute of Electrical and Electronic Engineers) 1588 Ethernet |
| CN104325388A (en) * | 2014-09-30 | 2015-02-04 | 无锡康柏斯机械科技有限公司 | Structure of grinding machine controller |
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