CN102914995A - Tool wear automatic compensation method and system, and corresponding numerically-controlled machine tool machining equipment - Google Patents

Abstract

The invention relates to a tool wear automatic compensation method and system, and corresponding numerically-controlled machine tool machining equipment. The method comprises the following steps of: A, measuring actual size of a finished product by an image measuring instrument; B, obtaining tool compensation information of the numerically-controlled machine tool based on the actual size and standard size of the finished product; and C, carrying out the tool compensation to the numerically-controlled machine tool based on the tool compensation information. The tool wear automatic compensation method and system, and the corresponding numerically-controlled machine tool machining equipment provided by the invention can carry out the tool compensation automatically, save time and labor, and avoid the defects that the existing tool compensation method and system is time-consuming when the tool compensation is carried out and the requirement to the operators is high.

Description

Automatic tool wear compensation method, system and corresponding numerically-controlled machine process equipment

Technical field

The present invention relates to a kind of COMPUTER DETECTION and control field, more particularly, relate to a kind of automatic tool wear compensation method, system and corresponding numerically-controlled machine process equipment.

Background technology

In existing glass processing process, the cutter of processing usefulness all can wear and tear inevitably gradually.After tool wear, its size can change, and need the machined parameters of the cutter in the controller of modification and processing system this moment, otherwise will affect the machining precision of workpiece.

The compensation method of existing tool wear is: the operator is put into the glass that processes on the image measurer, and image measurer is to obtain the measured object image to carry out the device of dimensional measurement by CCD (Charge-coupledDevice, charge coupled cell).Image measurer will check whether the size of processing meets the requirements, if do not meet, the operator need to analyze the deviation of size, then carries out the setting of cutter compensation at numerically-controlled machine.Can find out, the only simple measurement size of image measurer in this process, contacting by the operator between image measurer and the numerically-controlled machine set up, more serious for tool wear, and accurate to dimension requires higher processing technology, the operator just frequently the analysis to measure data with cutter compensation is set.This process is not only consuming time, and operator's analysis ability is had relatively high expectations.

Therefore, be necessary to provide a kind of automatic tool wear compensation method, system and corresponding numerically-controlled machine process equipment, to solve the existing problem of prior art.

Summary of the invention

The technical problem to be solved in the present invention is, carrying out cutter compensation for numerically-controlled machine process equipment of the prior art arranges more consuming time, simultaneously to operator's the defective of having relatively high expectations, provide a kind of cutter compensation setting of automatically carrying out, time saving and energy saving automatic tool wear compensation method, system and corresponding numerically-controlled machine process equipment.

The technical solution adopted for the present invention to solve the technical problems is:

The present invention relates to a kind of automatic tool wear compensation method, measure the physical size of processed finished products comprising step: A, use image measurer; B, according to physical size and the standard size of described processed finished products, generate the cutter compensation information of numerically-controlled machine; And C, according to the cutter compensation information that generates, described numerically-controlled machine is carried out the cutter compensation setting.

In automatic tool wear compensation method of the present invention, described cutter compensation information comprises cutter number, compensation type and offset.

In automatic tool wear compensation method of the present invention, described step B is specially: B1, according to physical size and the standard size of described processed finished products, generate and the corresponding cutter of described processed finished products number, compensation type, standard value and measured value, forward step B2 to; B2, according to described cutter number, described compensation type, described standard value and described measured value, judge that whether cutter needs compensation, then forwards step B3 in this way to; B3, according to described standard value and described measured value, generate the offset of described cutter, forward step B4 to; B4, judge that described offset whether greater than allowing offset, then sends alerting signal in this way, as otherwise forward step B5 to; And B5, described cutter number, described compensation type and described offset are sent to described numerically-controlled machine.

In automatic tool wear compensation method of the present invention, described step B3 comprises step: according to described standard value and the described measured value of identical described cutter number and identical described compensation type, generate at least one sub-offset of described cutter, with the mean value of all sub-offsets of the described cutter offset as described cutter.

In automatic tool wear compensation method of the present invention, also comprise step among the described step B3: according to the tolerance setting of described processed finished products, generate the ancillary relief value of described cutter, according to described ancillary relief value described sub-offset is revised again.

The invention still further relates to a kind of automatic tool wear compensation system, comprising measurement module, be used for measuring the physical size of processed finished products; Computing module is used for physical size and standard size according to described processed finished products, generates the cutter compensation information of numerically-controlled machine; And at least one compensating module, be used for according to the cutter compensation information that generates described numerically-controlled machine being carried out the cutter compensation setting.

In automatic tool wear compensation of the present invention system, described computing module comprises: the first computing unit, be used for physical size and standard size according to described processed finished products, generate and the corresponding cutter of described processed finished products number, compensation type, standard value and measured value; The compensation judgment unit is used for judging according to described cutter number, described compensation type, described standard value and described measured value whether cutter needs to compensate; The second computing unit is used for according to described standard value and described measured value, generates the offset of described cutter; Alarm unit is used for sending alerting signal according to described offset and permission offset; And transmitting element, be used for described cutter number, described compensation type and described offset are sent to described numerically-controlled machine.

In automatic tool wear compensation of the present invention system, described the second computing unit, be used for described standard value and described measured value according to identical described cutter number and identical described compensation type, generate at least one sub-offset of described cutter, with the mean value of all sub-offsets of the described cutter offset as described cutter.

In automatic tool wear compensation of the present invention system, described computing module also comprises: amending unit, be used for the tolerance setting according to described processed finished products, generate the ancillary relief value of described cutter, according to described ancillary relief value described sub-offset is revised again.

In automatic tool wear compensation of the present invention system, described computing module is connected with described at least one compensating module by Ethernet switch.

The invention still further relates to a kind of numerically-controlled machine process equipment, it comprises at least one numerically-controlled machine, is used for carrying out grinding to corresponding processed finished products; And tool wear-compensating system, comprising: measurement module is used for measuring the physical size of processed finished products; Computing module is used for physical size and standard size according to described processed finished products, generates the cutter compensation information of numerically-controlled machine; And at least one compensating module, be arranged on corresponding numerically-controlled machine one end, be used for according to the cutter compensation information that generates corresponding numerically-controlled machine being carried out the cutter compensation setting.

Implement automatic tool wear compensation method of the present invention, system and corresponding numerically-controlled machine process equipment, has following beneficial effect: can automatically carry out the cutter compensation setting, time saving and energy saving, avoided existing Tool Compensation and system carry out cutter compensation arrange more consuming time, the defective of simultaneously operator being had relatively high expectations.

Description of drawings

The invention will be further described below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the process flow diagram of the preferred embodiment of automatic tool wear compensation method of the present invention;

Fig. 2 is the particular flow sheet of step 102 of the preferred embodiment of automatic tool wear compensation method of the present invention;

Fig. 3 is the particular flow sheet of the preferred embodiment of automatic tool wear compensation method of the present invention;

Fig. 4 is the structural representation of the preferred embodiment of automatic tool wear compensation of the present invention system;

Fig. 5 is the structural representation of computing module of the preferred embodiment of automatic tool wear compensation of the present invention system;

Fig. 6 is the concrete use block diagram of the preferred embodiment of automatic tool wear compensation of the present invention system;

Fig. 7 is the block diagram of the cutter compensation information transfer channel of the preferred embodiment of automatic tool wear compensation of the present invention system;

Fig. 8 is the reception process flow diagram of cutter compensation information of the preferred embodiment of automatic tool wear compensation of the present invention system;

Fig. 9 is the transmission flow figure of cutter compensation information of the preferred embodiment of automatic tool wear compensation of the present invention system.

Embodiment

In order to make purpose of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, is not intended to limit the present invention.

Please refer to Fig. 1, Fig. 1 is the process flow diagram of the preferred embodiment of automatic tool wear compensation method of the present invention.This automatic tool wear compensation method starts from:

Step 101 uses image measurer to measure the physical size of processed finished products;

Step 102 according to physical size and the standard size of described processed finished products, generates the cutter compensation information of numerically-controlled machine;

Step 103 according to the cutter compensation information that generates, is carried out the cutter compensation setting to described numerically-controlled machine.

The method ends at step 103.

Wherein the particular flow sheet of step 102 as shown in Figure 2, Fig. 2 is the particular flow sheet of step 102 of the preferred embodiment of automatic tool wear compensation method of the present invention.This step 102 comprises:

Step 1021 according to physical size and the standard size of described processed finished products, generates and the corresponding cutter of described processed finished products number, compensation type, standard value and measured value, forwards step 1022 to:;

Step 1022 according to described cutter number, described compensation type, described standard value and described measured value, judges whether cutter needs compensation, as otherwise to as described in cutter do not compensate, then forward in this way step 1023 to;

Step 1023 according to described standard value and described measured value, generates the offset of described cutter, forwards step 1024 to;

Step 1024 judges that described offset whether greater than allowing offset, then sends alerting signal in this way, as otherwise forward step 1025 to;

Step 1025 is sent to described numerically-controlled machine with described cutter number, described compensation type and described offset, forwards step 103 to.

The below describes the particular flow sheet of automatic tool wear compensation method of the present invention in detail according to Fig. 3, Fig. 3 is the particular flow sheet of the preferred embodiment of automatic tool wear compensation method of the present invention.

In step 101, use image measurer to measure the physical size of processed finished products.

Here can also can automatically measure by manual measurement.Adopt automatically such as need and to measure, but operator's manual measurement size of processed finished products, and standard size is set as required, automatically generate again automatic process of measurement automatically to measure.

Come subsequently step 1021, in step 1021, according to physical size and the standard size of described processed finished products, generate cutter number, compensation type, standard value and the measured value of the described processed finished products of processing.

Wherein according to the physical size of processed finished products diverse location, obtain cutter number and compensation type, because the diverse location of workpiece to be machined may be processed by the different cutters of numerically-controlled machine, the scale error of workpiece to be machined diverse location has been reacted the tool wear situation of different cutters like this.Cutter is in process simultaneously, the mode of motion of same cutter also may be different, the abrasion condition that so same cutter is caused is also different, compensation type by corresponding cutters is set can be carried out correspondingly compensation to this abrasion condition, in process, same cutter is opposite to the calculating of the offset of the housing of this workpiece and inside casing such as workpiece (such as glass).Standard value obtains according to the standard size of the processed finished products that pre-enters; Measured value obtains according to the physical size of the processed finished products that image measurer is measured.

Come subsequently step 1022, in step 1022 in, according to described cutter number, described compensation type, described standard value and described measured value, judge whether cutter needs compensation.

Here travel through all dimensional datas (being above-mentioned cutter number, compensation type, standard value and measured value), judge whether cutter needs to compensate., then judge this cutter is not compensated less than setting range such as the error between standard value and the measured value; Greater than setting range, then forward the calculating of the next step value of compensating such as the error between standard value and the measured value to.While is not that all sizes that measure all need to carry out cutter compensation because in actual use, relatively hangs down such as the technological requirement of some size just to need not compensation, and perhaps some size can't be revised by cutter compensation.For this class size, the user only is concerned about its tolerance values, and does not participate in the calculating of cutter compensation.

Come subsequently step 1023, in step 1023, according to described standard value and described measured value, generate the offset of described cutter.

When concrete operations, because identical cutter number and compensation type can corresponding a plurality of standard values (be processed the diverse location of processing work such as the identical processing mode of same cutter use with measured value, identical like this cutter number and identical compensation type can corresponding a plurality of standard values and corresponding measured values), all can generate so the sub-offset of a cutter according to each group cutter number, compensation type, standard value and measured value, the sub-offset here calculates by the mode of sub-offset=standard value-measured value.This sub-offset is added to by cutter number and compensation type and counts in the totalizer as the two dimension group of index, behind the cutter that has traveled through all needs compensation, (may be little 5 microns on length such as processing work as the offset of the same compensation type of this cutter with the mean value of all sub-offsets of the same compensation type of each cutter, little 7 microns on the width, the processing of this two place all is to use the identical processing mode of same cutter to process, and the offset of this compensation type of this cutter is just got both 6 microns of mean values like this).

In the calculating of sub-offset, also can calculate the ancillary relief value of cutter according to the tolerance setting of processed finished products simultaneously, revise according to ancillary relief value antithetical phrase offset again.Because plus tolerance and minus tolerance that some processing technology allows are unequal, therefore when calculating each group cutter number, compensation type, standard value and the corresponding sub-offset of measured value, can arrange according to this tolerance and calculate corresponding ancillary relief value, use this ancillary relief value that corresponding sub-offset is revised on the basis of the sub-offset of giving tacit consent to like this, so that the processing dimension of cutter can be fallen in the scope of tolerance permission after the compensation.

Come subsequently step 1024, in step 1024, judge that whether described offset is greater than allowing offset.Because a variety of causes image measurer may cause the mistake of measurement, and then calculate wrong offset.Therefore arranging one allows offset to avoid measuring error on the impact of cutter offset.Greater than allowing offset, then can send alerting signal such as offset here, certainly send through continuing after operator's the operation here.Less than allowing offset, then directly forward next step such as offset to.

Come subsequently step 1025, in step 1025, described cutter number, described compensation type and described offset are sent to described numerically-controlled machine.

Be specially above-mentioned cutter compensation information is write pipe file for communication, then from pipe file, read the configuration information of cutter compensation information, know whether cutter compensation information has successfully sent on the corresponding numerically-controlled machine.If send or setup failed, then pop-up window is reported to the police, and prompting checks network connection and network settings; If send or arrange successfully, then forward step 103 to.

Come subsequently step 103, in step 103, according to described cutter compensation information, described numerically-controlled machine is carried out the cutter compensation setting.

Numerically-controlled machine can carry out the cutter compensation setting to corresponding cutter according to above-mentioned cutter compensation information.

The invention still further relates to a kind of automatic tool wear compensation system, as shown in Figure 4 and Figure 5, Fig. 4 is the structural representation of the preferred embodiment of automatic tool wear compensation of the present invention system, and Fig. 5 is the structural representation of computing module of the preferred embodiment of tool wear-compensating system of the present invention.This automatic tool wear compensation system comprises measurement module 1 (such as image measurer), computing module 2 and at least one compensating module 3, measurement module 1 is used for measuring the physical size of processed finished products, physical size and standard size that computing module 2 is used for according to described processed finished products, obtain the cutter compensation information of numerically-controlled machine, compensating module 3 is used for according to described cutter compensation information, and described numerically-controlled machine is carried out the cutter compensation setting.Wherein measurement module 1 is connected with computing module 2, and computing module 2 is connected with at least one compensating module 3 by Ethernet switch 4, and certain computing module 2 here also can be connected with at least one compensating module 3 by other networks such as RS485.

This computing module 2 comprise the first computing unit 21, compensation judgment unit 22,, the second computing unit 23, alarm unit 24, transmitting element 25 and amending unit 26, the first computing unit 21 is used for physical size and the standard size according to described processed finished products, generates and the corresponding cutter of described processed finished products number, compensation type, standard value and measured value; Compensation judgment unit 22 usefulness are used for judging according to described cutter number, described compensation type, described standard value and described measured value whether cutter needs to compensate; The second computing unit 23 is used for according to described standard value and described measured value, generate the offset of described cutter, be specially described standard value and described measured value according to identical described cutter number and identical described compensation type, generate at least one sub-offset of described cutter, with the mean value of all sub-offsets of the described cutter offset as described cutter; Alarm unit 24 is used for according to described offset and allows offset, sends alerting signal; Transmitting element 25 is used for described cutter number, described compensation type and described offset are sent to described numerically-controlled machine; Amending unit 26 generates the ancillary relief value of described cutter for the tolerance setting according to described processed finished products, according to described ancillary relief value described sub-offset is revised again.Wherein the first computing unit 21 and compensation judgment unit 22 downlink connection, compensation judgment unit 22 is connected with the second computing unit 23, the second computing unit 23 is connected with amending unit 26, alarm unit 24 and transmitting element 25 respectively, and transmitting element 25 is connected with compensating module 3.

Describe the workflow of automatic tool wear compensation of the present invention system in detail below by Fig. 6 and Fig. 7.Fig. 6 is the concrete use block diagram of the preferred embodiment of automatic tool wear compensation of the present invention system, and Fig. 7 is the block diagram of the cutter compensation information transfer channel of the preferred embodiment of automatic tool wear compensation of the present invention system.

At first measurement module 1 (such as image measurer) is measured the size of processed finished products automatically or by the operator, then corresponding dimensional data is sent to computing module 2 and compensate analysis, the Compensation Analysis here specifically comprises: the first computing unit 21 is according to finished product physical size and the standard size of having processed, obtain and the corresponding cutter of processed finished products number, compensation type, standard value and measured value, the step 1021 of concrete course of work automatic tool wear compensation method described above is described.Compensation judgment unit 22 is according to cutter number, compensation type, standard value and measured value subsequently, judge whether cutter needs compensation, compensation then sends to corresponding data the second computing unit 23 such as needs, otherwise do not compensate, the step 1022 of concrete course of work automatic tool wear compensation method described above is described.The second computing unit 23 is according to above-mentioned standard value and measured value subsequently, generate the offset of cutter, wherein the generation of 26 pairs of these offsets of amending unit is revised, the offset of 24 pairs of mistakes of alarm unit is reported to the police, and step 1023 and the step 1024 of concrete course of work automatic tool wear compensation method described above are described.There are not warning or operator that the offset that generates is confirmed such as alarm unit 24, then by transmitting element 25 corresponding cutter compensation information is sent to compensating module 3, the step 1025 of concrete course of work automatic tool wear compensation method described above is described.Last numerically-controlled machine can according to the cutter compensation information in the compensating module 3, carry out the cutter compensation setting to corresponding cutter.

The transmitting element 25 of computing module 2 passes through network connection with at least one compensating module 3 herein, wherein the image measurer end is provided with pipe file cvm_net and the pipe file net_cvm that is connected with communication module toolC lComp_server, communication module toolC lComp_server is by the communication module cnc_server of Ethernet switch 4 with the numerically-controlled machine side, and communication module cnc_server controls former numerically-controlled machine and carries out the cutter compensation setting.

Come the sending and receiving process of the cutter compensation information of detailed explanation automatic tool wear compensation system below by Fig. 8 and Fig. 9.Wherein Fig. 8 is the reception process flow diagram of cutter compensation information of the preferred embodiment of automatic tool wear compensation of the present invention system; Fig. 9 is the transmission flow figure of cutter compensation information of the preferred embodiment of automatic tool wear compensation of the present invention system.

For the compensating module 3 that makes the numerically-controlled machine side computing module 2 with the image measurer side communicates, be provided with communication module toolC lComp_server in the image measurer side, be provided with communication module cnc_server in the numerically-controlled machine side.

At first this communication module cnc_server creates the socket object of UDP and TCP, and utilize UDP in LAN (Local Area Network), to broadcast title and the IP address of numerically-controlled machine, this moment, communication module toolC lComp_server monitored the broadcast message in the LAN (Local Area Network), data communication device is crossed Ethernet switch 4 and is received and set up the title of numerically-controlled machine and the corresponding relation of its IP address by communication module toolC lComp_server, simultaneously communication module toolC lComp_server is written among the pipe file net_cvm after with the numerically-controlled machine name that receives, image measurer by pipe file net_cvm as can be known certain number of units controlled machine whether access or withdraw from LAN (Local Area Network).

Judge that when computing module 2 need to carry out cutter compensation the time, image measurer writes corresponding cutter compensation information to pipe file cvm_net, form is: send: the numerically-controlled machine name: cutter number: compensation type: offset.Communication module toolComp_server reads above-mentioned cutter compensation information from pipe file cvm_net, and splits data.After splitting out the numerically-controlled machine name, communication module toolC lComp_server sets up TCP according to IP address corresponding to the title of numerically-controlled machine with communication module cnc_server on the numerically-controlled machine and is connected, after the successful connection, utilize the send of socket object and recv function to transmit and receive data.Communication module cnc_server receives cutter compensation information, and corresponding information is saved in the dictionary of self.emcstat by name, last numerically-controlled machine obtains this cutter compensation information by calling the getstat function, then carries out the cutter compensation setting according to this cutter compensation information.

The invention still further relates to a kind of numerically-controlled machine process equipment, it comprises at least one numerically-controlled machine, is used for carrying out grinding to corresponding converted products; And tool wear-compensating system, comprising: measurement module is used for measuring the physical size of processed finished products; Computing module is used for physical size and standard size according to described processed finished products, generates the cutter compensation information of numerically-controlled machine; And at least one compensating module, be arranged on corresponding numerically-controlled machine one end, be used for according to the cutter compensation information that generates corresponding numerically-controlled machine being carried out the cutter compensation setting.

The principle of work of numerically-controlled machine process equipment of the present invention and beneficial effect, same or similar with above-mentioned automatic tool wear compensation system, specifically see also the specific embodiment of above-mentioned automatic tool wear compensation system.

In sum, automatic tool wear compensation method of the present invention, system and corresponding numerically-controlled machine process equipment have not only saved this numerous and diverse process of manual analysis cutter compensation, improve the efficient of cutter compensation, and guaranteed the accuracy of cutter compensation by warning setting.Because method of the present invention, system and equipment are so that cutter compensation becomes accurate, convenient, fast, therefore can increase accordingly the frequency of numerical control machining cutter compensation (such as the mobile phone screen glass processing, can once be increased to 5 compensation once from 50 compensation), the raising of compensating frequency can improve the precision of processed finished products size greatly.Experiment showed, that the accurate to dimension that uses method of the present invention, system and equipment can make mobile phone screen glass profile rises to 0.005 millimeter from 0.05 millimeter, effectively overcome and hindered the bottleneck that Processing Quality of NC Machining and efficient improve.

The above only is embodiments of the invention; be not so limit claim of the present invention; every equivalent structure transformation that utilizes instructions of the present invention and accompanying drawing content to do, or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the present invention.

Claims (10)

1. an automatic tool wear compensation method is characterized in that, comprises step:

A, use image measurer are measured the physical size of processed finished products;

B, according to physical size and the standard size of described processed finished products, generate the cutter compensation information of numerically-controlled machine; And

C, according to the cutter compensation information that generates, described numerically-controlled machine is carried out the cutter compensation setting.

2. automatic tool wear compensation method according to claim 1 is characterized in that, described cutter compensation information comprises cutter number, compensation type and offset.

3. automatic tool wear compensation method according to claim 2 is characterized in that, described step B is specially:

B1, according to physical size and the standard size of described processed finished products, generate and the corresponding cutter of described processed finished products number, compensation type, standard value and measured value, forward step B2 to;

B2, according to described cutter number, described compensation type, described standard value and described measured value, judge that whether cutter needs compensation, then forwards step B3 in this way to;

B3, according to described standard value and described measured value, generate the offset of described cutter, forward step B4 to;

B4, judge that described offset whether greater than allowing offset, then sends alerting signal in this way, as otherwise forward step B5 to; And

B5, described cutter number, described compensation type and described offset are sent to described numerically-controlled machine.

4. automatic tool wear compensation method according to claim 3, it is characterized in that, described step B3 comprises step: according to described standard value and the described measured value of identical described cutter number and identical described compensation type, generate at least one sub-offset of described cutter, with the mean value of all sub-offsets of the described cutter offset as described cutter.

5. automatic tool wear compensation method according to claim 4, it is characterized in that, also comprise step among the described step B3: according to the tolerance setting of described processed finished products, generate the ancillary relief value of described cutter, according to described ancillary relief value described sub-offset is revised again.

6. an automatic tool wear compensation system is characterized in that, comprising:

Measurement module is used for measuring the physical size of processed finished products;

Computing module is used for physical size and standard size according to described processed finished products, generates the cutter compensation information of numerically-controlled machine; And

At least one compensating module is used for according to the cutter compensation information that generates described numerically-controlled machine being carried out the cutter compensation setting.

7. automatic tool wear compensation according to claim 6 system is characterized in that, described computing module comprises:

The first computing unit is used for physical size and standard size according to described processed finished products, generates and the corresponding cutter of described processed finished products number, compensation type, standard value and measured value;

The compensation judgment unit is used for judging according to described cutter number, described compensation type, described standard value and described measured value whether cutter needs to compensate;

The second computing unit is used for according to described standard value and described measured value, generates the offset of described cutter;

Alarm unit is used for sending alerting signal according to described offset and permission offset; And

Transmitting element is used for described cutter number, described compensation type and described offset are sent to described numerically-controlled machine.

8. automatic tool wear compensation according to claim 7 system, it is characterized in that, described the second computing unit, be used for described standard value and described measured value according to identical described cutter number and identical described compensation type, generate at least one sub-offset of described cutter, with the mean value of all sub-offsets of the described cutter offset as described cutter.

9. automatic tool wear compensation according to claim 8 system is characterized in that, described computing module also comprises:

Amending unit is used for the tolerance setting according to described processed finished products, generates the ancillary relief value of described cutter, according to described ancillary relief value described sub-offset is revised again.

10. a numerically-controlled machine process equipment is characterized in that, comprising:

At least one numerically-controlled machine is used for carrying out grinding to corresponding processed finished products; And

Tool wear-compensating system comprises:

Measurement module is used for measuring the physical size of processed finished products;

Computing module is used for physical size and standard size according to described processed finished products, generates the cutter compensation information of numerically-controlled machine; And

At least one compensating module is arranged on corresponding numerically-controlled machine one end, is used for according to the cutter compensation information that generates corresponding numerically-controlled machine being carried out the cutter compensation setting.

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