CN201166611Y - Apparatus for automatically measuring numerical control milling machine error - Google Patents

Abstract

The utility model provides an automatic measuring device for measuring the error of a digital control milling machine, which comprises a lever type inductance stop gauge, a lever type inductance position meter, a clamping mechanism, a data collecting and processing device, wherein the gauge head of the lever type inductance position meter is contacted with the measuring base face of the stop gauge, the exposed core of the lever type inductance position meter is connected with the exposed core of the clamping mechanism, and the lever type inductance position meter is connected with the data collecting and processing device, which is used for transmitting displacement signals to the data collecting and processing device. The measuring device improves the efficiency of measuring the error of a digital control milling machine, reduces the complexity of the error measurement and the evaluating and compensating operations, and reduces the error measurement cost.

Description

Nc milling machine error automatic sizing device

Technical field

The utility model relates to error measure, evaluation and the compensation field of CNC milling machine.

Technical background

CNC milling machine is widely used in machine-building as machine-tool of new generation, and developing rapidly of precision processing technology and improving constantly of part processing precision are also had higher requirement to the precision of numerically-controlled machine.Bearing accuracy (also claiming positional precision) is an important indicator of numerically-controlled machine, and each numerically-controlled machine manufacturer all needs its positional precision is demarcated when lathe dispatches from the factory; Simultaneously, the user often also very values the bearing accuracy, particularly bearing accuracy of each and repetitive positioning accuracy of lathe when choosing numerically-controlled machine.A large amount of statistical data show: the new machine more than 65.7% does not all meet its technical indicator during installation; Numerically-controlled machine in 90% use is in the misalignment duty.Therefore, the lathe duty monitored and machine tool accuracy is carried out routine test be very important,, improve part processing precision so that in time find and deal with problems.

Existing commercial digital control system all has the The compensation of pitch error function, when numerically-controlled machine dispatches from the factory, need measure its precision usually, and import the The compensation of pitch error data in digital control system.The lathe user in use for some time, machine tool accuracy can cracking, is necessary lathe is proofreaied and correct again.Current, error-detecting, evaluation and compensation are rings important in the dynamo-electric uniting and adjustment work, and it is one of reason of restriction lathe production in enormous quantities.Therefore, seek a kind of error-detecting simply, fast and cheaply, evaluation and compensation system and method, particularly necessary, particularly in a large amount of production and consumptions, low-grade numerically-controlled machine, the software compensation method cheapness, do not need to add hardware, so it have important use value and realistic meaning.

And existing numerically-controlled machine error measurement method mainly contains laser interferometer, combination of step gage and clock gauge and grating chi, there is certain limitation in these methods, wherein the laser interferometer complicated operation, efficient is low, cost is high and environment for use requires high; Step gage and clock gauge combined method, important problem wherein, most of need of work people's participation needs the people to read and handles as data, improves the possibility of makeing mistakes so greatly, and efficient is low simultaneously; The grating chi is installed inconvenience, and existing similar measuring system is not considered compensation, as Heidenhain (Heidenhain) linear grating error measuring system.At present, laser interferometer is mainly adopted in the milling machine error measure, and there is foregoing shortcoming in it.From existing patent, as application number 200510035936, open day 2007.01.10, publication number CN1892175, utility model is created a technical scheme that the patent application document that is called " three-dimensional error compensation system and method " is announced and is: utilize the contour precision measure instrument of laser interferometer to measure the error of three-dimensional lathe, set up error model, utilize independently error module, according to the coordinate figure of input, by the error model error of calculation, the actual coordinate value after the output compensation.Because need manual input coordinate value, so its compensation is inconvenient.Application number 200410093428.1, open day 2005.06.29, publication number CN1631614, utility model is created a compensator that the patent application document that is called " based on the numerically-controlled machine real time error compensator of lathe exterior coordinate system biasing " is announced and need be connected with the bottom hardware of digital control system when compensation, simultaneously when output offset error in real time, need be synchronous with the motion control of digital control system, therefore use inconvenient.Application number is 92204762.6, open day 1992.09.09, and publication number CN2115516, it is very complicated in the process of installing and measuring that utility model is created an error cubing that the patent application document that is called " T type machine tool error cubing " is announced.

The utility model content

The purpose of this utility model is to improve the efficient of CNC milling machine error measure, reduces the error measure cost.

A kind of nc milling machine error automatic sizing device comprises lever inductance survey step gage, lever inductance direction finder, clamping device and data acquisition and processor; The gauge head of lever inductance direction finder contacts with the measuring basis face of step gage, and the bare terminal end of lever inductance direction finder is connected with the bare terminal end of clamping device; Lever inductance direction finder is connected with processor with data acquisition, is used for to data acquisition and processor transmission displacement signal.

Described step gage is placed on the anchor clamps, and anchor clamps comprise bottom surface, front and the side that intersects vertically in twos, and inside, side is placed with magnet.

Described data acquisition and processor comprise:

Parameter is provided with module and is used to be provided with supplemental characteristic;

The G code generation module is used to receive autoregressive parameter that the supplemental characteristic of module is set, and generates the numerically-controlled machine movement instruction;

The measurement mechanism correction module is used to receive autoregressive parameter that supplemental characteristic, the displacement signal from lever inductance direction finder, the actual displacement of the manual lever inductance direction finder of importing and the actual pitch between the step gage point position of module are set, calculate the measurement mechanism error information, send it to error measure module;

The pose measurement module is used to receive from the displacement signal of lever inductance direction finder and the machine tool instructions displacement of manually importing, obtain displacement data according to displacement signal, utilize displacement data and machine tool instructions displacement to calculate the pose data of the relative measured axle of step gage, send the pose data to the error measure module;

The error measure module be used to receive autoregressive parameter the supplemental characteristic of module is set, from the displacement signal of lever inductance direction finder, from the measurement mechanism error information of measurement mechanism correction module with from the pose data of pose measurement module, obtain displacement data according to displacement signal, judge lathe fortune, stop state, utilize measurement mechanism error information and pose data correction displacement data, revised displacement data is handled the formation error information, send error information to the data splicing module;

The data splicing module is used to receive autoregressive parameter that the supplemental characteristic of module is set and from the error information of error measure module, generates the error information of whole machine tool motion stroke.

Described data acquisition and processor also comprise the error compensation module, and it is used to receive autoregressive parameter that the supplemental characteristic of module is set and from the error information of data splicing module, error information are handled generating corresponding error compensation data.

Described data acquisition and processor also comprise the precision evaluation module, and it is used to receive autoregressive parameter that the supplemental characteristic of module and the error information of error concatenation module are set, and according to predetermined evaluation criterion error information is analyzed and is handled, and obtains evaluation result.

Described clamping device adopts the magnetic force gauge stand.

The utility model proposes use and need not adjust the measuring method of measurement mechanism pose, utilize the measurement function of measurement mechanism itself, pose to measurement mechanism itself is measured fast, in the process of error measure, according to measuring the pose data that obtain, directly measurement data is revised, reached fast and accurately measure the purpose of CNC milling machine error.At measurement mechanism after making, itself there are foozle and the non-linear error that causes, after using simultaneously, the cracking of precision can appear, the ad hoc measurement mechanism correction module of having counted is the actual displacement data entry system at diverse location of relevant apparatus, in the measuring process afterwards, system can revise automatically because the error that the measurement mechanism error causes improves measuring accuracy; The utility model can be used to measure the error of big stroke lathe, and promptly the step gage of shorter length also can be measured the lathe of big stroke, has reduced the cost of measurement mechanism like this.Data acquisition and processor generate G code automatically and handle measurement data automatically and generate the required offset data of corresponding digital control system, send it to CNC, realize error compensation fast, by processing, obtain required precision index of user and error profile fast simultaneously error information.The utility model environment for use is less demanding, can be applied to processing enterprise the accuracy detection and the precision of lathe in using are strengthened, and finally improves machining precision.

Description of drawings

Fig. 1 is the utility model system construction drawing;

Fig. 2 is the utility model data Collection ﹠ Processing System functional block diagram;

Fig. 3 is the utility model measurement mechanism self-adjusting schematic diagram, and wherein, Fig. 3 a is the step gage front view, and Fig. 3 b is the step gage vertical view;

Fig. 4 is relay measuring principle figure of the present utility model;

Fig. 5 measures Z axle synoptic diagram for the utility model;

Fig. 6 measures Z axle clamp tool figure for the utility model;

Fig. 7 is provided with process flow diagram for the utility model parameter;

Fig. 8 is the utility model G code product process figure;

Fig. 9 is the utility model measurement mechanism correcting process figure;

Figure 10 is the utility model step gage pose measurement process flow diagram;

Figure 11 is the utility model error measure process flow diagram;

Figure 12 is the utility model data splicing process flow diagram;

Figure 13 is the utility model precision evaluation process flow diagram;

Figure 14 is the utility model error compensation process flow diagram.

Embodiment

The utility model is mainly used on the CNC milling machine.Fig. 1 is the utility model structural drawing, and this system comprises step gage 1, lever inductance direction finder 2, clamping device 3, data Collection ﹠ Processing System 6.Wherein step gage 1 is placed on lathe 4 worktable, the bare terminal end of clamping device 3 closely links to each other with the supporting rod of lever inductance direction finder 2, the other end of clamping device 3 is adsorbed on the main spindle box of lathe 4, play the effect of truck dead lever formula inductance direction finder 2, lever inductance direction finder 2 contacts with step gage 1 measuring basis face.Lever inductance direction finder 2 is connected with processor 6 with data acquisition, is used for to data acquisition and processing 6 transmission displacement signals.Data acquisition and processor be the numerically-controlled machine movement instruction program (G code file) and the offset data of generation automatically, and is transferred to CNC (numerically-controlled machine) 5 by network or serial communication program.

The utility model adopts the combination of traditional step gage 1 and lever inductance direction finder 2 as measurement mechanism, and its measuring principle is the same with the measuring principle of step gage 1 and dial gauge combination.The material of high precision step gage is a marble now, and it has the precision height, and thermal expansivity is little, so the precision height.Lever inductance direction finder 3 selects range little, as 200um, its precision up to 1um about, and mechanical clock gauge precision reaches about 6um.The utility model adopts lever inductance type direction finder 2, is convenient to realize robotization, improves the convenience of efficiency of measurement and data processing.Clamping device 3 in the utility model adopts the magnetic force gauge stand.

When measuring milling machine Z axle, need anchor clamps 7 anchor clamps to be placed on the worktable, step gage is erect, and its locating surface contacts with the locating surface of anchor clamps 7, and assurance step gage locating surface is parallel with lathe Z axle.

As shown in Figure 2, data acquisition and processor 6 comprise eight modules: parameter is provided with module 61, G code generation module 62, measurement mechanism correction module 63, pose measurement module 64, error measure module 65, data splicing module 66, precision evaluation module 67 and error compensation module 68.

Parameter is provided with module 61 and mainly finishes measuring the parameter setting relevant with compensation, comprise parameters such as digital control system type, measure dot number, spacing, measurement axis, time zero direction, generate supplemental characteristic, and provide supplemental characteristic to G code generation module 62, measurement mechanism correction module 63, error measure module 65, data splicing module 66, precision evaluation module 67 and error compensation module 68.

G code generation module 62 receives autoregressive parameter that the supplemental characteristic of module 61 is set, and parameters such as the measure dot number in the extracting parameter data, spacing, measurement axis, time zero direction, time out generate the numerically-controlled machine movement instruction, i.e. G code.

Measurement mechanism correction module 63 is used to calculate the measurement mechanism error information, sends it to error measure module 65.The measurement mechanism error information comprises lever inductance direction finder 2 directional error data and step gage 1 directional error data.The method of obtaining lever inductance direction finder 2 directional error data is: measurement mechanism correction module 63 is gathered the displacement signal of lever inductance direction finder 2, according to displacement signal picked up signal shift value; Manually import the actual displacement value of lever inductance direction finder 2 to measurement mechanism correction module 63, actual displacement value is corresponding with the signal shift value, actual displacement value is measured by high precision instruments such as laser interferometer, the scope of demarcating will cover whole measurement range, and this process preferably cooperates with lathe to be finished; Measurement mechanism correction module 63 calculates lever inductance direction finder 2 directional error data according to signal shift value and actual displacement value.The method of obtaining step gage 1 directional error data is: to the manual actual pitch values between the input step gage point positions of measurement mechanism correction module 63, the actual pitch value utilizes high precision instrumental calibration such as laser interferometer to obtain; Measurement mechanism correction module 63 according to the step gage in actual pitch and the supplemental characteristic count, spacing parameter calculates step gage 5 directional error data.

Pose measurement module 64 is calculated the angular relationship between step gage 1 benchmark and the measured axle, i.e. the pose data of measured relatively of step gage 1, and send error measure module 65 to.

Error measure module 65 is gathered the displacement signal of lever inductance direction finder 2 in the lathe operation, obtain displacement data according to displacement signal, and according to displacement data judge lathe fortune, stop state, according to from the directional error data of measurement mechanism correction module 63 with from the pose data correction displacement data of pose measurement module 64, revised displacement number is handled, form error information, and send error information to data splicing module 66.

Data splicing module 66 is handled the error information from error measure module 65, generates the error information of whole machine tool motion stroke according to the relay measuring principle, sends error information to precision evaluation module 67 and error compensation module 68.

Precision evaluation module 67 receives autoregressive parameter that the supplemental characteristic of module 61 and the error information of error concatenation module 66 are set, according to predetermined evaluation criterion error information is analyzed and handled, obtain and export evaluation result, be backlass, bearing accuracy, repetitive positioning accuracy and error profile curve, for further analytical error source provides the basis.

Error compensation module 68 receives autoregressive parameter that the supplemental characteristic of module 61 is set and from the error information of data splicing module 66, adopt two-way or unidirectional error compensation mode that error information is handled according to the digital control system type parameter in the supplemental characteristic, generate corresponding error compensation data, send this to CNC5, cover error compensation data among the digital control system CNC5, realize error compensation.

As shown in Figure 3, step gage pose measurement of the present utility model and error correction principle.How to measure the angle of step gage benchmark and measured axis, as shown in Figure 3, allow gauge head contact any point D on the step gage reference field earlier, make direction finder that certain reading be arranged, move lathe, move to E along measured axis, and record lathe amount of movement, in the moving process, the relative value of meter sense in D and E position is EF, then step gage benchmark and measured axis location angle β=arctg ( ^DF/ _FE).To measure a joint is example, the specification error correction, as shown in Figure 3, when the step gage benchmark is parallel with measured axis, measuring head contact point A and C, when not parallel, measuring head contact point A and some B comprise in the error that at this moment measure to obtain because step gage and the not parallel error E that causes of measured axis=AB-AC=AC/cos θ-AC, and wherein θ and β are for equating, when known this error, can when error measure, eliminate because step gage and the not parallel influence of measured axis to measurement result.

As shown in Figure 4, the application that relay of the present utility model is measured is measured the error of putting in the range ability when measuring step gage all in the I position, it is machine tool position point B, C, D, E and F error with respect to location point A, then, mobile step gage is to the II position, location point F point F ₁Overlap (consider the machine tool error continuity, do not need strict the coincidence, promptly in certain error range, can satisfy measurement requirement), measure wherein machine tool position point G, H, I, J, K with respect to a F ₁Error, the error of machine tool position point F when then putting G, H, I, J, K and adding in the I position respectively with respect to the error of the error of the A machine tool position point that to be step gage measure when the II position, in like manner, can relay repeatedly, measure the error of the whole stroke of lathe.

Fig. 5 is that the utility model is measured vertical milling machine Z axle synoptic diagram, step gage is adsorbed on the simple anchor clamps, anchor clamps 7 are placed on the worktable, clamping device 3 is adsorbed on the main spindle box, mobile lathe is measured whole stroke successively, and when measured X, Y-axis, do not need anchor clamps, directly step gage is placed on the worktable of lathe 4 and can measures.

Fig. 6 is that the utility model is measured Z axle clamp tool figure, step gage 1 is erect and is placed on anchor clamps 7 bottom surfaces, it contacts with the upper surface of bottom surface, the lower surface of base plate contacts with platen, one side has the structure of a L type in the bottom surface, this structure comprises a front and a side vertical with the front, and the intersection on two sides is vertical with the lower surface of base plate, has guaranteed that step gage is parallel with the Z axle.Inside, side in L type structure studs with magnet, has guaranteed that step gage contacts with the tight of side, need not add clamp device.When relay is measured, can between the base plate of step gage 1 and anchor clamps 7, add cushion block, reach the purpose of measuring whole stroke.

Fig. 7 is that parameter of the present utility model is provided with process flow diagram, spacing, measurement axis, time parameters such as zero direction, cycle index and time out between digital control system type (selectable system comprises Central China numerical control, Guangzhou numerical control, Siemens, method clarke and Mazak etc.), measure dot number, the measurement point are set, wherein if need not generate G code, zero direction, cycle index and time out parameter need be set back, preserve supplemental characteristic, for other module provides supplemental characteristic.

Fig. 8 is that the utility model generates the G code process flow diagram automatically, receive autoregressive parameter that the supplemental characteristic that module 41 generates is set, extract wherein measure dot number, measurement spacing, time zero direction, parameters such as measurement cycle index, time out and measurement axis, automatically generate the G code file, cooperate with serial ports or the network communication program of CNC5, can directly be transferred to optional position among the CNC5 to this file.

Fig. 9 is the utility model measurement mechanism correcting process figure.When demarcating step gage 1, parameter such as extract the spacing of step gage 1 and count, manual mode is imported the actual value by high precision instrumental calibrations such as laser interferometer of this corresponding step gage 1 position, and system calculates step gage 1 directional error data when this position automatically; When demarcating lever inductance direction finder 2, system gathers the displacement signal of lever inductance direction finder 2 automatically, obtain its signal shift value, use high precision instrument (as laser interferometer) to measure actual displacement value simultaneously, this is worth the Data Input Interface of manual input measurement device correction module 63.System calculates lever inductance direction finder 2 directional error data according to signal shift value and actual displacement value

As shown in figure 10, the utility model pose measurement process flow diagram.Step gage benchmark and measured axle clamp angular measurement, in this process, system judges the beginning and the end of measuring process automatically, sampling during by grade, determine the machine tool instructions shift position of the data correspondence of collection, ask its angle for the method for least square data are provided, these data are used for 65 pairs of measurement data corrections of error measure module.

As shown in figure 11, the utility model error measure process flow diagram.In order to make software systems can be fit to the different measuring mode, software systems provide error information manual input interface, can accept from the machine tool error data that measure to obtain under other metering systems (as laser interferometer, grating chi) condition, for precision evaluation module 67 and error compensation module 68 provide error information.When metering system is step gage 5 modes, data acquisition and lathe need keep coordinating, promptly the error information and instruction position of Ce Lianging is corresponding, and do not have communication between error measure module 65 and the lathe, and to coordinate in order to realize data acquisition and lathe, system is by gathering the displacement signal of lever inductance direction finder 2, according to its variation, automatically judge the static or motion state of lathe, when machine tool motion arrived impact point, system write down the displacement data of lever inductance direction finder 2 automatically.Repeat this collection and deterministic process, when counting of collection reaches counting of parameter setting, according to pose data correction displacement data from the directional error data and the pose measurement module 64 of measurement mechanism correction module 63, displacement data is handled, the generated error data, and preserve error information.

Figure 12 is the utility model data splicing process flow diagram, the error information that selection is generated by error measure module 65, when measuring by relay, successively choose error information according to machine tool position, when splicing, also to splice in proper order, revise measure dot number and spacing parameter in the parameter, according to the principle deal with data of relay measurement by this, the final error information that obtains whole stroke is for modules 68 such as the precision evaluation 67 of back, error compensation provide data.

Figure 13 is the utility model precision evaluation process flow diagram, selected evaluation criterion, and evaluation criterion has iso standard, European standard, Nippon Standard and national standard, the standard difference, the algorithm of the processing of evaluation is also different.Then, the error information that Select Error concatenation module 66 obtains is handled error information according to selected standard, the output evaluation result, and the evaluation index of output has backlass, bearing accuracy and repetitive positioning accuracy.In addition, in order to understand error profile and error source better, export the repeated curve of backlass curve, graph of errors and error simultaneously.

Shown in Figure 14, the utility model error compensation process flow diagram, the mode of Select Error compensation at first, the mode of error compensation has unidirectional and two-way.Choose the error information that data splicing module 66 generates then, according to parameter the supplemental characteristic that module 61 generates is set, error information is handled, generate the error compensation data of corresponding digital control system, cooperate with serial ports or the network communication program of CNC5, these data directly are transferred among the CNC5, cover the error compensation data in the digital control system, can realize error compensation fast.

Claims (7)

1, a kind of nc milling machine error automatic sizing device is characterized in that, comprises lever inductance survey step gage (1), lever inductance direction finder (2), clamping device (3) and data acquisition and processor (6); The gauge head of lever inductance direction finder (2) contacts with the measuring basis face of step gage (1), and the bare terminal end of lever inductance direction finder (2) is connected with the bare terminal end of clamping device (3); Lever inductance direction finder (2) is connected with processor (6) with data acquisition, is used for to data acquisition and processor (6) transmission displacement signal.

2, nc milling machine error automatic sizing device according to claim 1 is characterized in that, described step gage (1) is placed on the anchor clamps (7), and anchor clamps (7) comprise bottom surface, front and the side that intersects vertically in twos.

3, nc milling machine error automatic sizing device according to claim 2 is characterized in that, inside, described side is placed with magnet.

4, nc milling machine error automatic sizing device according to claim 1 is characterized in that, described data acquisition and processor (6) comprising:

Parameter is provided with module (61) and is used to be provided with supplemental characteristic;

G code generation module (62) is used for receiving autoregressive parameter that the supplemental characteristic of module (61) is set, and generates the numerically-controlled machine movement instruction;

Measurement mechanism correction module (63) is used for receiving autoregressive parameter that supplemental characteristic, the displacement signal from lever inductance direction finder (2), the actual displacement of the manual lever inductance direction finder of importing (2) and the actual pitch between step gage (1) the some position of module (61) are set, calculate the measurement mechanism error information, send it to error measure module (65);

Pose measurement module (64) is used for receiving from the displacement signal of lever inductance direction finder (2) and the machine tool instructions displacement of manually importing, obtain displacement data according to displacement signal, utilize displacement data and machine tool instructions displacement to calculate the pose data of the relative measured axle of step gage (1), send the pose data to error measure module (65);

The supplemental characteristic that error measure module (65) is used for receiving autoregressive parameter that module (61) are set, from the displacement signal of lever inductance direction finder (2), from the measurement mechanism error information of measurement mechanism correction module (63) with from the pose data of pose measurement module (64), obtain displacement data according to displacement signal, judge lathe fortune, stop state, utilize measurement mechanism error information and pose data correction displacement data, revised displacement data is handled the formation error information, send error information to data splicing module (66);

The supplemental characteristic that data splicing module (66) is used for receiving autoregressive parameter that module (61) is set and from the error information of error measure module (65) generates the error information of whole machine tool motion stroke.

5, nc milling machine error automatic sizing device according to claim 4, it is characterized in that, described data acquisition and processor (6) also comprise error compensation module (68), the supplemental characteristic that it is used for receiving autoregressive parameter that module (61) is set and from the error information of data splicing module (66) handles to generate corresponding error compensation data to error information.

6, nc milling machine error automatic sizing device according to claim 4, it is characterized in that, described data acquisition and processor (6) also comprise precision evaluation module (67), it is used for receiving autoregressive parameter that the supplemental characteristic of module (61) and the error information of error concatenation module (66) are set, according to predetermined evaluation criterion error information is analyzed and handled, obtain evaluation result.

According to each described nc milling machine error automatic sizing device of claim 1 to 6, it is characterized in that 7, described clamping device (3) adopts the magnetic force gauge stand.

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