CN203204430U - Digital control device supporting batch processing - Google Patents

Abstract

The utility model discloses a digital control device supporting batch processing, which comprises a processor, an internal memory, an external memory, a display module, a control panel and a shaft control mechanism, wherein the internal memory is connected with the processor; the external memory is connected with the processor; the display module is connected with the processor; and the control panel is connected with the processor. Compared with the prior art, the digital control device supporting batch processing provided by the utility model has the advantages that the processing task configuration is simple, the production plan can be set in advance, an operator can manage multiple machines at the same time, and if the material feeding is fully automatic, the working efficiency can be higher, the raw material utilization rate can be higher, and the workpiece counting can be more time and labor saving.

Description

A kind of numerical control device of supporting batch machining

Technical field

The utility model relates to numerical control field, exactly refers to a kind of numerical control device of supporting batch machining.

Background technology

On the production line, batch machining is general situation with a product.For improving the quality of production and production efficiency, use the equipment that is equipped with numerical control device more and more.Process at numerical control device, the raw-material size of use may be the several times of single workpiece, namely can be processed into one group of a plurality of workpiece, or a collection of workpiece, in order effectively to utilize starting material, reduce the generation of leftover pieces as far as possible, when machining programming, need take into full account this requirement.

Except improving raw-material availability, also to improve the utilization rate of manpower, namely an operator can manage many numerical control devices simultaneously.If numerical control device is carried out job sequence, need manually intervene, namely judge whether to carry out again job sequence by the operator, and send enabled instruction.Or numerical control device can ceaselessly carry out job sequence, need manually intervene, and namely judged whether to stop to carry out job sequence by operation element, and sends halt instruction.Like this, if the job sequence performance period is shorter, the numerical control device that operator can manage simultaneously can be quite limited.

The utility model content

At above-mentioned defective, the technical matters that the utility model solves is to provide a kind of numerical control device of supporting batch machining, the processing tasks configuration is simple, the production schedule can set in advance, an operator can manage many machines simultaneously, and feeding is words fully automatically, and work efficiency is higher, and the raw material effective rate of utilization is higher, and the workpiece counting is more time saving and energy saving.

In order to solve above technical matters, the numerical control device of the support batch machining that the utility model provides comprises processor, internal storage, external memory storage, display module, control panel and axle control gear, wherein:

Described internal storage is connected with described processor;

Described external memory storage is connected with described processor;

Described display module is connected with described processor;

Described control panel is connected with described processor;

Described axle control gear comprises a control circuit, servo-driver and lathe, and described axle control circuit installation shaft rotary speed instruction and sense of rotation generate electronic signal, import described servo-driver into; Described servo-driver receives electronic signal, with its amplification and filtering, is sending to described lathe; Described lathe is installed corresponding rotating speed after receiving signal, drives the cutter rotation;

Described axle control circuit is connected with described processor; Be provided with logic module in the described processor, described logic module comprises that system arranges module, parsing module, counting module, execution module and batch control module, described system arranges module and is connected with described parsing module, described parsing module is connected with described counting module, described counting module is connected with described execution module, and described execution module is connected with described batch control module.

Preferably, support the numerical control device of batch machining also to comprise input/output module, described input/output module is connected with described processor, and described input/output module is connected with sensor.

Preferably, described input/output module is connected with the electromagnetic valve switch of control circuit.

Preferably, described display module is the LCD display module.

Preferably, described processor is micro computer.

Compared with prior art, the numerical control device of the support batch machining that the utility model provides, the processing tasks configuration is simple, the production schedule can set in advance, an operator can manage many machines simultaneously, and feeding is words fully automatically, and work efficiency is higher, and the raw material effective rate of utilization is higher, and the workpiece counting is more time saving and energy saving.

Description of drawings

Fig. 1 is the structured flowchart of supporting the numerical control device of batch machining among the utility model embodiment;

Fig. 2 supports the structured flowchart of logic module in the numerical control device of batch machining for the utility model embodiment.

Embodiment

For those skilled in the art can understand technical scheme provided by the utility model better, set forth below in conjunction with specific embodiment.

See also Fig. 1 and Fig. 2, Fig. 1 is the structured flowchart of supporting the numerical control device of batch machining among the utility model embodiment; Fig. 2 supports the structured flowchart of logic module in the numerical control device of batch machining for the utility model embodiment.

The numerical control device of the support batch machining that the utility model embodiment provides comprises processor 11, internal storage 12, external memory storage 13, input/output module 21, display module 22, control panel 23 and axle control gear, wherein:

Processor 11 is micro computer; Internal storage 12 is connected with processor 11; External memory storage 13 is connected with processor 11, is used for stores system parameters, perhaps job sequence file; Input/output module 21 is connected with processor 11; Display module 22 is connected with processor 11, and display module 22 is the LCD display module, is used for display control state, forms alternately with the user; Control panel 23 is connected with processor 11, is used for instruction or parameter and is imported by control panel by the user;

The axle control gear comprises a control circuit 41, servo-driver 42 and lathe 51, and axle control circuit 41 installation shaft rotary speed instruction and sense of rotation generate electronic signal, import servo-driver 42 into; Servo-driver 42 receives electronic signal, with its amplification and filtering, is sending to lathe 51; Lathe 51 is installed corresponding rotating speed after receiving signal, drives the cutter rotation;

Axle control circuit 41 is connected with processor 11; Be provided with logic module in the processor 11, logic module comprises that system arranges module 31, parsing module 32a, counting module 32b, execution module 32c and batch control module 33, system arranges module 31 and is connected with parsing module 32a, parsing module 32a is connected with counting module 32b, counting module 32b is connected with execution module 32c, and execution module 32c is connected with batch control module 33.

Input/output module 21 is connected with sensor; Input/output module 21 is connected with the electromagnetic valve switch of control circuit.In order to finish processing, lathe 51 needs sensor installation usually, and signal imports into from input port; Lathe 51 needs again auxiliary equipment is installed usually, and for example electromagnetic valve switch is with the break-make of control device circuit.

The numerical control device of the support batch machining that the utility model provides during X-axis and Y-axis coordinate divide, can record the coordinate figure of both sides of the edge and it is averaged, and can establish the axial coordinate into workpiece coordinate system; In addition, allowing with the optional position is reference point, and kinematic axis shows its relative position in moving process.Compared with prior art, the numerical control device of the support batch machining that the utility model provides can be located the workpiece initial point, sets up workpiece coordinate system fast, saves cost.Because need not manual calculations, save time.

To the above-mentioned explanation of the disclosed embodiments, make this area professional and technical personnel can realize or use the utility model.Multiple modification to these embodiment will be apparent concerning those skilled in the art, and defined General Principle can realize under the situation that does not break away from spirit or scope of the present utility model in other embodiments herein.Therefore, the utility model will can not be restricted to these embodiment shown in this article, but will meet the wideest scope consistent with principle disclosed herein and features of novelty.

Claims (5)

1. a numerical control device of supporting batch machining is characterized in that, comprises processor, internal storage, external memory storage, display module, control panel and axle control gear, wherein:

Described internal storage is connected with described processor;

Described external memory storage is connected with described processor;

Described display module is connected with described processor;

Described control panel is connected with described processor;

Described axle control gear comprises a control circuit, servo-driver and lathe, and described axle control circuit installation shaft rotary speed instruction and sense of rotation generate electronic signal, import described servo-driver into; Described servo-driver receives electronic signal, with its amplification and filtering, is sending to described lathe; Described lathe is installed corresponding rotating speed after receiving signal, drives the cutter rotation;

Described axle control circuit is connected with described processor; Be provided with logic module in the described processor, described logic module comprises that system arranges module, parsing module, counting module, execution module and batch control module, described system arranges module and is connected with described parsing module, described parsing module is connected with described counting module, described counting module is connected with described execution module, and described execution module is connected with described batch control module.

2. the numerical control device of support batch machining according to claim 1 is characterized in that, also comprises input/output module, and described input/output module is connected with described processor, and described input/output module is connected with sensor.

3. the numerical control device of support batch machining according to claim 2 is characterized in that, described input/output module is connected with the electromagnetic valve switch of control circuit.

4. the numerical control device of support batch machining according to claim 1 is characterized in that, described display module is the LCD display module.

5. the numerical control device of support batch machining according to claim 1 is characterized in that, described processor is micro computer.

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