CN103048952B - The verification method of machine tooling code, Apparatus and system - Google Patents

Abstract

The invention discloses a kind of verification method, Apparatus and system of machine tooling code.Wherein, the method comprises: digital control system receives machining code; Digital control system uses machining code to obtain steering order; Analogue system uses steering order to drive Virtual Machine to carry out work manufacturing operation, and wherein, Virtual Machine is the lathe model of simulating in advance; Analogue system gathers Virtual Machine in the machine operation data of carrying out producing in the process of work manufacturing operation; Analogue system judge machine operation data whether with predetermined registration operation data consistent, wherein, predetermined registration operation data are the service data of the lathe corresponding with machining code prestored; Analogue system, when machine operation data and predetermined registration operation data consistent, determines that machining code passes through checking.By the present invention, achieve and resolve machining code exactly thus the effect verifying machining code exactly.

Description

The verification method of machine tooling code, Apparatus and system

Technical field

The present invention relates to machine tool field, in particular to a kind of verification method, Apparatus and system of machine tooling code.

Background technology

In the engineer applied in modern times, CNC processing technology application is more and more extensive, in order to cultivate the CNC processing technology talent, need to buy a large amount of equipment, the Installation and Debugging of cost long time, particularly the numerical control machine tool of five axles is expensive, not all training organization can purchase to be afforded, in addition, after have purchased corresponding equipment run time, also need high equipment maintenance cost.In actual NC Machining Process, in order to verify the correctness of numerical control code, need to carry out repeatedly trial cut until confirm that numerical control code can complete predetermined processing tasks, the parameter of digital control processing simultaneously also needs repeatedly to debug, these operate not only inefficiency, occupy machine resources, and likely cause the problems such as cutter collision or interference and cause economic loss.

In order to solve the problem, in prior art, provide following two kinds of emulation modes: (1) use CAM software with copying carry out the checking of machining code.The operation of cutter spacing information-driven Virtual Machine that CAM software application receives, can carry out interference and collision inspection, and this kind of method is the simulating, verifying based on track.But in the processing of reality, what lathe received is machining code, and CAM software emulation is Path, after getting Path, Path need be converted into machining code by this software, if out of joint in follow-up link Path being converted into machining code, lathe add and will go wrong man-hour, not thorough to the checking of machining code like this.(2) special Numerical Control Simulation software is used, this software is the simulating, verifying based on machining code, although it is the emulation based on machining code, the machining code got can be resolved by it, in the process of resolving, software can do the operation of the instruction had and simplify, and also namely it can not all go all instructions to resolve completely, the just geometric instructions of such as its acquisition, and can not be optimized instruction or speed command, so real problematic instruction may not check out.

When machining code being verified for adopting analogue system in prior art, due to accurately machining code can not be resolved, thus the problem of the result exactly cannot be obtained, not yet proposing effective solution at present.

Summary of the invention

When machining code being verified for adopting analogue system in correlation technique, due to accurately machining code can not be resolved, thus the problem of the result exactly cannot be obtained, at present effective solution is not yet proposed, for this reason, fundamental purpose of the present invention is the verification method, the Apparatus and system that provide a kind of machine tooling code, to solve the problem.

To achieve these goals, according to an aspect of the present invention, provide a kind of verification method of machine tooling code, the method comprises: digital control system receives machining code; Digital control system uses machining code to obtain steering order; Analogue system uses steering order to drive Virtual Machine to carry out work manufacturing operation, and wherein, Virtual Machine is the lathe model of simulating in advance; Analogue system gathers Virtual Machine in the machine operation data of carrying out producing in the process of work manufacturing operation; Analogue system judge machine operation data whether with predetermined registration operation data consistent, wherein, predetermined registration operation data are the service data of the lathe corresponding with machining code prestored; Analogue system, when machine operation data and predetermined registration operation data consistent, determines that machining code passes through checking.

Further, analogue system judge machine operation data whether with predetermined registration operation data consistent after, method also comprises: analogue system when machine operation data and predetermined registration operation data inconsistent, obtain the quantity of the first data inconsistent with predetermined registration operation data in machine operation data; Analogue system judges whether the quantity of the first data is more than or equal to first threshold; Analogue system, when the quantity of the first data is more than or equal to first threshold, sends machining code not by the warning of checking.

Further, when analogue system reaches first threshold in the quantity of the first data, after sending the warning of machining code not by checking, method also comprises: analogue system extracts the first data; Digital control system obtains revised steering order by the first data; Return and perform the step that analogue system use steering order driving Virtual Machine carries out work manufacturing operation.

Further, the step that digital control system uses machining code to obtain steering order comprises: carry out interpolation operation to machining code, to obtain resolution data by the control system of digital control system; The servo-drive system of digital control system uses resolution data to drive the servomotor of servo-drive system to operate, and using the service data of servomotor as steering order.

Further, use steering order to drive before Virtual Machine carries out work manufacturing operation in analogue system, method also comprises: analogue system obtains first property parameters of functional unit of Virtual Machine and the second property parameters of the stationary parts of Virtual Machine; Functional unit and stationary parts simulate assemble are become initial virtual lathe according to the first property parameters with the second property parameters by analogue system; Analogue system obtains the operational attribute parameter of the functional unit of initial virtual lathe; Analogue system uses operational attribute parameter to upgrade the functional unit lathe model of initial virtual lathe, to obtain Virtual Machine.

To achieve these goals, according to an aspect of the present invention, provide a kind of demo plant of machine tooling code, this device comprises: the first acquisition module, for obtaining machining code; First processing module, obtains steering order for using machining code; First driver module, for using steering order to drive Virtual Machine to carry out work manufacturing operation, wherein, Virtual Machine is the lathe model of simulating in advance; First acquisition module, for gathering Virtual Machine in the machine operation data of carrying out producing in the process of work manufacturing operation; First judge module, for judge machine operation data whether with predetermined registration operation data consistent, wherein, predetermined registration operation data are the service data of the lathe corresponding with machining code prestored; Second processing module, for when machine operation data and predetermined registration operation data consistent, determines that machining code passes through checking.

Further, device also comprises: the second acquisition module, for when machine operation data and predetermined registration operation data inconsistent, obtain the quantity of the first data inconsistent with predetermined registration operation data in machine operation data; Second judge module, for judging whether the quantity of the first data is more than or equal to first threshold; 3rd processing module, for when the quantity of the first data is more than or equal to first threshold, determines machining code not by checking.

Further, device also comprises: the first extraction module, for extracting the first data; 4th processing module, for resolving the first data, and obtains revised steering order; 5th processing module, for returning execution first driver module.

Further, the first processing module comprises: the first computing module, for carrying out interpolation operation to machining code, to obtain resolution data; First sub-processing module, for using resolution data to operate to drive the servomotor of servo-drive system, and using the service data of servomotor as steering order.

To achieve these goals, according to a further aspect in the invention, provide a kind of verification system of machine tooling code, this system comprises: digital control system, for receiving machining code, and uses machining code to obtain steering order, analogue system, be connected with digital control system, for after the steering order receiving digital control system, steering order is used to drive Virtual Machine to carry out work manufacturing operation, and gather Virtual Machine in the machine operation data of carrying out producing in the process of work manufacturing operation, then judge machine operation data whether with predetermined registration operation data consistent, when machine operation data and predetermined registration operation data consistent, determine that machining code passes through checking, wherein, Virtual Machine is the lathe model of simulating in advance, predetermined registration operation data are the service data of the lathe corresponding with machining code prestored.

Pass through the present invention, machining code is used to obtain steering order by real digital control system, and use steering order to drive Virtual Machine to carry out process operation by analogue system, then the machine operation data of Virtual Machine are obtained, and when machine operation data and predetermined registration operation data consistent, determine that machining code passes through checking, solve in prior art when adopting analogue system to verify machining code, due to accurately machining code can not be resolved, thus the problem of the result exactly cannot be obtained, achieve and resolve machining code exactly thus the effect verifying machining code exactly.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, and form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the structural representation of the demo plant of machine tooling code according to the embodiment of the present invention;

Fig. 2 is the process flow diagram of the verification system of machine tooling code according to the embodiment of the present invention;

Fig. 3 is the process flow diagram of the verification method of machine tooling code according to the embodiment of the present invention; And

Fig. 4 is the process flow diagram of the verification method according to machine tooling code embodiment illustrated in fig. 3.

Embodiment

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the present invention in detail in conjunction with the embodiments.

Fig. 1 is the structural representation of the demo plant of machine tooling code according to the embodiment of the present invention.As shown in Figure 1, this device comprises: the first acquisition module 10, for obtaining machining code; First processing module 30, obtains steering order for using machining code; First driver module 50, for using steering order to drive Virtual Machine to carry out work manufacturing operation, wherein, Virtual Machine is the lathe model of simulating in advance; First acquisition module 70, for gathering Virtual Machine in the machine operation data of carrying out producing in the process of work manufacturing operation; First judge module 90, for judge machine operation data whether with predetermined registration operation data consistent, wherein, predetermined registration operation data are the service data of the lathe corresponding with machining code prestored; Second processing module 110, for when machine operation data and predetermined registration operation data consistent, determines that machining code passes through checking.

Adopt the demo plant of machine tooling code of the present invention, machining code is used to obtain steering order by real digital control system, and use steering order to drive Virtual Machine to carry out process operation by analogue system, then the machine operation data of Virtual Machine are obtained, and when machine operation data and predetermined registration operation data consistent, determine that machining code passes through checking, solve in prior art when adopting analogue system to verify machining code, due to accurately machining code can not be resolved, thus the problem of the result exactly cannot be obtained, achieve and resolve machining code exactly thus the effect verifying machining code exactly.

Wherein, machining code is the machining code for lathe, particularly, the motion trace data that the service data of the lathe corresponding with machining code comprises lathe lathe in the process of workpiece being carried out to process operation and the processing model data that obtain after completing process operation to workpiece are (also namely to the result data of work pieces process, as, blank is processed to the finished product obtained), then judge machine operation data whether with the process of predetermined registration operation data consistent, comprise and judge that whether the machine tool motion track data of lathe in process operation process be consistent with the machine tool motion track data preset, also comprise and judge that whether the processing result data that lathe obtains work pieces process are consistent with the processing model data preset.

According to the abovementioned embodiments of the present invention, device can also comprise: the second acquisition module, for when machine operation data and predetermined registration operation data inconsistent, obtain the quantity of the first data inconsistent with predetermined registration operation data in machine operation data; Second judge module, for judging whether the quantity of the first data is more than or equal to first threshold; 3rd processing module, for when the quantity of the first data is more than or equal to first threshold, determines machining code not by checking.

In the above embodiment of the present invention, device can also comprise: the first extraction module, for extracting the first data; 4th processing module, for resolving the first data, and obtains revised steering order; 5th processing module, for returning execution first driver module.

According to the abovementioned embodiments of the present invention, the first processing module 30 can comprise: the first computing module, for carrying out interpolation operation to machining code, to obtain resolution data; First sub-processing module, for using resolution data to operate to drive the servomotor of servo-drive system, and using the service data of servomotor as steering order.

Fig. 2 is the process flow diagram of the verification system of machine tooling code according to the embodiment of the present invention, and this system comprises as shown in Figure 2: digital control system 1, for receiving machining code, and uses machining code to obtain steering order, analogue system 3, be connected with digital control system 1, for after the steering order receiving digital control system, steering order is used to drive Virtual Machine to carry out work manufacturing operation, and gather Virtual Machine in the machine operation data of carrying out producing in the process of work manufacturing operation, then judge machine operation data whether with predetermined registration operation data consistent, when machine operation data and predetermined registration operation data consistent, determine that machining code passes through checking, wherein, Virtual Machine is the lathe model of simulating in advance, predetermined registration operation data are the service data of the lathe corresponding with machining code prestored.

Adopt the verification system of machine tooling code of the present invention, machining code is used to obtain steering order by real digital control system, and use steering order to drive Virtual Machine to carry out process operation by analogue system, then the machine operation data of Virtual Machine are obtained, and when machine operation data and predetermined registration operation data consistent, determine that machining code passes through checking, solve in prior art when adopting analogue system to verify machining code, due to accurately machining code can not be resolved, thus the problem of the result exactly cannot be obtained, achieve and resolve machining code exactly thus the effect verifying machining code exactly.

Fig. 3 is the process flow diagram of the verification method of machine tooling code according to the embodiment of the present invention, and Fig. 4 is the process flow diagram of the verification method according to machine tooling code embodiment illustrated in fig. 3.

As shown in Figure 3 and Figure 4, the method comprises the steps:

Step S102, digital control system receives machining code.

Step S104, digital control system uses machining code to obtain steering order.

Step S106, analogue system uses steering order to drive Virtual Machine to carry out work manufacturing operation, and wherein, Virtual Machine is the lathe model of simulating in advance.

Step S108, analogue system gathers Virtual Machine in the machine operation data of carrying out producing in the process of work manufacturing operation.

Step S110, analogue system judge machine operation data whether with predetermined registration operation data consistent, wherein, predetermined registration operation data are the service data of the lathe corresponding with machining code prestored.

Step S112, analogue system, when machine operation data and predetermined registration operation data consistent, determines that machining code passes through checking.

Adopt the verification method of machine tooling code of the present invention, machining code is used to obtain steering order by real digital control system, and use steering order to drive Virtual Machine to carry out process operation by analogue system, then the machine operation data of Virtual Machine are obtained, and when machine operation data and predetermined registration operation data consistent, determine that machining code passes through checking, solve in prior art when adopting analogue system to verify machining code, due to accurately machining code can not be resolved, thus the problem of the result exactly cannot be obtained, achieve and resolve machining code exactly thus the effect verifying machining code exactly.

In the above-described embodiments, can saving resource avoid risk by the verification method of machining code, and can the operation of Virtual Machine simulated machine tool process come to give training machine operation personnel rapidly, also Machine Manufacture business can be helped to its product of potential remote client demonstration true to nature, thus the construction cycle of product can be shortened, reduce production cost, improve product quality and production efficiency.Method in above-described embodiment is for results-driven with the operation result of real digital control system, virtual lathe is driven by analogue system, carry out processing and cut checking, because lathe is virtual, itself does not have loss, therefore damaged in collision is not afraid of, just in time can simulate the process operation to workpiece of numerically-controlled machine process, and can be that the debugging in the demonstration true to nature of long-distance user and Machine Manufacture early stage provides huge convenience at the design period of new machine by the present invention, improve lathe production efficiency.

In the above embodiment of the present invention, analogue system judge machine operation data whether with predetermined registration operation data consistent after, method can also comprise: analogue system when machine operation data and predetermined registration operation data inconsistent, obtain the quantity of the first data inconsistent with predetermined registration operation data in machine operation data; Analogue system judges whether the quantity of the first data is more than or equal to first threshold; Analogue system, when the quantity of the first data is more than or equal to first threshold, sends machining code not by the warning of checking.

According to the abovementioned embodiments of the present invention, when analogue system reaches first threshold in the quantity of the first data, after sending the warning of machining code not by checking, method can also comprise: analogue system extracts the first data; Digital control system obtains revised steering order by the first data; Return and perform the step that analogue system use steering order driving Virtual Machine carries out work manufacturing operation.

Particularly; in Virtual Machine motion process; the data inconsistent with predetermined registration operation data comprise: collide, the information data such as interference; when collide the problems such as interference time; generate the first data, analogue system by generate the first data feedback to digital control system, after digital control system receives the first data; correction can be made, can make shutdown or other counter-measure to Virtual Machine to steering order.

In the above embodiment of the present invention, the step that digital control system uses machining code to obtain steering order comprises: carry out interpolation operation to machining code, to obtain resolution data by the control system of digital control system; The servo-drive system of digital control system uses resolution data to drive the servomotor of servo-drive system to operate, and using the service data of servomotor as steering order.

Particularly, digital control system can comprise control system and servo-drive system.As shown in Figure 4, first step S214 is performed: receive machining code.

Then step S216 is performed: obtain steering order by machining code.

Particularly, by the control system of digital control system, interpolation operation is carried out to machining code, send the servo drive system of control signal to servo-drive system, control signal is amplified by servo drive system, then use the control signal of amplification to drive the servomotor of servo-drive system to move on request, and will the motor message (being also the service data of servomotor) of servomotor be collected as steering order.

Step S208: drive Virtual Machine by analogue system.Particularly, steering order is issued the Virtual Machine in the analogue system of computing machine, just steering order can be used to drive Virtual Machine motion by analogue system.

Step S212: Virtual Machine carries out process operation.Particularly, Virtual Machine carries out process operation generation machine operation data.

Step S218: gather lathe service data.Particularly, analogue system by the machine operation data feedback that collects to digital control system.

In addition, digital control system can also comprise measuring system, for detecting movement position or the speed of servomotor, and feed back to control system, to make the control system Correction and Control signal of digital control system, three parts of digital control system organically combine, and form the digital control system of complete closed-loop control.

According to the abovementioned embodiments of the present invention, use steering order to drive before Virtual Machine carries out work manufacturing operation in analogue system, method can comprise: analogue system obtains first property parameters of functional unit of Virtual Machine and the second property parameters of the stationary parts of Virtual Machine; Functional unit and stationary parts simulate assemble are become initial virtual lathe according to the first property parameters with the second property parameters by analogue system; Analogue system obtains the operational attribute parameter of the functional unit of initial virtual lathe; Analogue system uses operational attribute parameter to upgrade the functional unit lathe model of initial virtual lathe, to obtain Virtual Machine.

Particularly, can pass through to perform step S202 to step S206: the element attribute obtaining Virtual Machine, particularly, Virtual Machine both can be the model set up with reference to actual lathe 1:1 ratio, also can be the type do not had in actual lathe, or the product type in design.Lathe in Virtual Machine and reality is similar, is also be assembled by each different parts, and according to the component movement of Virtual Machine whether, these parts can be divided into moving component and stationary parts, and moving component refers to the driving carrier of each kinematic axis; Stationary parts refers to actionless parts in machine cut motion process, as the parts of lathe bed class.Then, each parts can create in design class software (as CAD software): for stationary parts, owing to not needing to drive it, therefore without the need to specifying its basic point, only need the position relationship keeping it in whole lathe assembling, and for moving component, because needs drive it to move, therefore its basic point and direction of motion must be specified, here namely motion comprises the motion of linear axes, as XYZ axle or straight line direction motion arbitrarily, also comprise rotary motion, as rotated around an axle.

Step S204: assembling Virtual Machine.Particularly, create the parts of Virtual Machine in design class software (as CAD) after, assembling is completed in design class software, after lathe is assembled, utilize the export function of CAD software, all parts of lathe can be derived, (parts are saved as a stl file to be separately saved as the file of STL form, the data stored are the data under lathe assembling coordinate system), then by these files loading in analogue system, thus obtain initial virtual lathe.

After acquisition initial virtual lathe, determine the moving component in initial virtual lathe, and give different basic points to each moving component of initial virtual lathe, direction of motion and maximal value, the soft spacing parameter such as operational attribute such as grade of minimum value, time as allowed X-axis move 10mm when us, the parts of X-axis and appurtenances thereof all can move forward the distance of 10mm along the direction of motion of X-axis, wherein, the distance of 10mm refer to be move from the basic point of X-axis along X-axis positive dirction measure distance, thus acquisition Virtual Machine, after acquisition Virtual Machine, perform step S206: whether verifying virtual machines bed can normally work, wherein, if, then perform step S208, if cannot normally work, then perform step S210: re-assembly Virtual Machine, until Virtual Machine can normally work.Particularly, we can carry out simple operations checking to Virtual Machine, to verify whether the Virtual Machine got can work normally.

Particularly, we are loaded with each parts of Virtual Machine in internal memory, utilize three dimensional graph display technology directly can demonstrate all parts, what such user saw is exactly a complete Virtual Machine, three dimensional graph display employs ripe OpenGL or DirectX storehouse, the hardware acceleration capability of video card can be utilized well, make display and user operation more smooth, and in analogue system when parts move forward, we can again show mobile after parts, be that component movement arrives this position In the view of user like this.

It should be noted that, can perform in the computer system of such as one group of computer executable instructions in the step shown in the process flow diagram of accompanying drawing, and, although show logical order in flow charts, but in some cases, can be different from the step shown or described by order execution herein.

From above description, can find out, present invention achieves following technique effect: adopt the present invention, machining code is used to obtain steering order by real digital control system, and use steering order to drive Virtual Machine to carry out process operation by analogue system, then the machine operation data of Virtual Machine are obtained, and when machine operation data and predetermined registration operation data consistent, determine that machining code passes through checking, solve in prior art when adopting analogue system to verify machining code, due to accurately machining code can not be resolved, thus the problem of the result exactly cannot be obtained, achieve and resolve machining code exactly thus the effect verifying machining code exactly.

Obviously, those skilled in the art should be understood that, above-mentioned of the present invention each module or each step can realize with general calculation element, they can concentrate on single calculation element, or be distributed on network that multiple calculation element forms, alternatively, they can realize with the executable program code of calculation element, thus, they can be stored and be performed by calculation element in the storage device, or they are made into each integrated circuit modules respectively, or the multiple module in them or step are made into single integrated circuit module to realize.Like this, the present invention is not restricted to any specific hardware and software combination.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. a verification method for machine tooling code, is characterized in that, comprising:

Digital control system receives machining code;

Described digital control system uses described machining code to obtain steering order;

Analogue system uses described steering order to drive Virtual Machine to carry out work manufacturing operation, and wherein, described Virtual Machine is the lathe model of simulating in advance;

Described analogue system gathers described Virtual Machine in the machine operation data of carrying out producing in the process of work manufacturing operation;

Described analogue system judge described machine operation data whether with predetermined registration operation data consistent, wherein, described predetermined registration operation data are the service data of the lathe corresponding with described machining code prestored;

Described analogue system, when described machine operation data and described predetermined registration operation data consistent, determines that described machining code is by checking.

2. method according to claim 1, is characterized in that, described analogue system judge described machine operation data whether with predetermined registration operation data consistent after, described method also comprises:

Described analogue system when described machine operation data and described predetermined registration operation data inconsistent, obtain the quantity of the first data inconsistent with described predetermined registration operation data in described machine operation data;

Described analogue system judges whether the quantity of described first data is more than or equal to first threshold;

Described analogue system, when the quantity of described first data is more than or equal to described first threshold, sends described machining code not by the warning of checking.

3. method according to claim 2, is characterized in that, when described analogue system reaches described first threshold in the quantity of described first data, after sending the warning of described machining code not by checking, described method also comprises:

Described analogue system extracts described first data;

Described digital control system obtains revised steering order by described first data;

Returning the described analogue system of execution uses described steering order to drive Virtual Machine to carry out the step of work manufacturing operation.

4. method according to claim 1, is characterized in that, the step that described digital control system uses described machining code to obtain steering order comprises:

Interpolation operation is carried out to described machining code, to obtain resolution data by the control system of described digital control system;

The servo-drive system of described digital control system uses described resolution data to operate to drive the servomotor of described servo-drive system, and using the service data of described servomotor as described steering order.

5. method according to claim 1, is characterized in that, use described steering order to drive before Virtual Machine carries out work manufacturing operation in described analogue system, described method also comprises:

Described analogue system obtains the second property parameters of the first property parameters of the functional unit of described Virtual Machine and the stationary parts of described Virtual Machine;

Described functional unit and described stationary parts simulate assemble are become initial virtual lathe according to described first property parameters with the second property parameters by described analogue system;

Described analogue system obtains the operational attribute parameter of the functional unit of described initial virtual lathe;

Described analogue system uses described operational attribute parameter to upgrade the functional unit lathe model of described initial virtual lathe, to obtain described Virtual Machine.

6. a demo plant for machine tooling code, is characterized in that, comprising:

First acquisition module, for obtaining machining code;

First processing module, obtains steering order for using described machining code;

First driver module, for using described steering order to drive Virtual Machine to carry out work manufacturing operation, wherein, described Virtual Machine is the lathe model of simulating in advance;

First acquisition module, for gathering described Virtual Machine in the machine operation data of carrying out producing in the process of work manufacturing operation;

First judge module, for judge described machine operation data whether with predetermined registration operation data consistent, wherein, described predetermined registration operation data are the service data of the lathe corresponding with described machining code prestored;

Second processing module, for when described machine operation data and described predetermined registration operation data consistent, determines that described machining code is by checking.

7. device according to claim 6, is characterized in that, described device also comprises:

Second acquisition module, for when described machine operation data and described predetermined registration operation data inconsistent, obtain the quantity of the first data inconsistent with described predetermined registration operation data in described machine operation data;

Second judge module, for judging whether the quantity of described first data is more than or equal to first threshold;

3rd processing module, for when the quantity of described first data is more than or equal to described first threshold, determines described machining code not by checking.

8. device according to claim 7, is characterized in that, described device also comprises:

First extraction module, for extracting described first data;

4th processing module, for resolving described first data, and obtains revised steering order;

5th processing module, performs described first driver module for returning.

9. device according to claim 6, is characterized in that, described first processing module comprises:

First computing module, for carrying out interpolation operation to described machining code, to obtain resolution data;

First sub-processing module, for using described resolution data to operate to drive the servomotor of servo-drive system, and using the service data of described servomotor as described steering order.

10. a verification system for machine tooling code, is characterized in that, comprising:

Digital control system, for receiving machining code, and uses described machining code to obtain steering order;

Analogue system, be connected with described digital control system, for after the steering order receiving described digital control system, described steering order is used to drive Virtual Machine to carry out work manufacturing operation, and gather described Virtual Machine in the machine operation data of carrying out producing in the process of work manufacturing operation, then judge described machine operation data whether with predetermined registration operation data consistent, when described machine operation data and described predetermined registration operation data consistent, determine that described machining code is by checking, wherein, described Virtual Machine is the lathe model of simulating in advance, described predetermined registration operation data are the service data of the lathe corresponding with described machining code prestored.