TW202302254A - Multi-axis digital processing system - Google Patents

Abstract

This invention relates to an innovative structure of machining operations, especially a " Multi-axis digital processing system ", It is mainly to set up a multi-axial motion and coordinated synchronous motion machining spindle structure at the end of a processing tool to process several workpieces at the same time. Then set up detection devices at the synchronous axial motion and spindle structure ends of the machine, and make the inspection Knowing that the device cooperates with the control circuit through intelligent processing, which can make the machining operation more convenient, precise and fast, and achieve the purpose of real-time debugging and correction processing, so as to enhance the multiple practical value of the product.

Description

Multi-axis digital machining system

The present invention relates to a multi-axis digital processing system, in particular to a processing device and method capable of synchronously processing and inspecting multiple workpieces.

Generally known machine tools are mainly composed of a spindle and a machine that can control the direction of movement, and then through numerical control, the workpiece is processed at a specific position by the tool of the spindle. This processing operation can only be completed one at a time. For mass production Industrial requirements not only require multiple devices to operate at the same time, which makes the cost high, but also requires a large amount of manpower to operate, which greatly increases the cost of manpower, and the efficiency is limited; moreover, the accuracy error in the processing process makes the product quality inconsistent, which is an urgent problem for the current industry. main needs.

In view of the above-mentioned shortcomings of the prior art, the present invention is to provide a processing device and method for synchronously processing and inspecting multiple workpieces. , to process several workpieces at the same time, which can reduce equipment and labor costs, and increase production capacity, and install detection devices on the synchronous axial movement of the machine tools and the main shaft structure end, and make the detection devices cooperate with the control circuit through intelligent processing, It can make the machining operation more convenient, precise and fast, and achieve the purpose of real-time debugging and correction processing, so as to improve the quality assurance of the product, and ensure the maintenance of the accuracy of the equipment, so that the industry has multiple practical and economic values.

10: Main system

20: Spindle connector

21: Sensor

22: Decoder

23: Parameter correction

24: Calculus Execution

30: Intelligent monitoring

31: Smart Data

40: Processing parts

Fig. 1 is a system structure diagram of the present invention.

The embodiment of the present invention is described hereby through a specific example in conjunction with FIG. 1 , so that those familiar with the art can easily understand the advantages and effects of the present invention.

The present invention discloses a multi-axis digital processing system, which is mainly composed of a main system 10, a main shaft connector 20, an intelligent monitoring system 30 and other systems. The connector 20 is further equipped with an intelligent monitor 30 at the end of the main system 10 and the spindle connector 20, so that the workpiece 40 can be easily and synchronously executed.

The main system 10 of this case is composed of a multi-axis motion device, and a workpiece 40 clamping device is installed on the upper end in conjunction with the spindle connector 20 to achieve synchronous processing operations, reduce equipment and labor costs, and increase production capacity.

The spindle connector 20 is equipped with sensors 21 with different requirements and functions on the main system 10, and cooperates with the decoder 22 to perform parameter correction 23 and calculation execution 24, so as to achieve accurate detection, so as to process several workpieces at the same time At 40 o'clock, the purpose of more convenient, precise, real-time debugging and correction processing and fast processing is obtained.

In addition, the intelligent monitoring 30 of this case can store the intelligent data 31 through the sensor 21 and the parameter correction 23, so that the main system 10 can generate intelligent data for judging the processing performance, and as a reference for future processing space corrections. In order to improve the service life of the system and ensure the production capacity.

In summary, the above-mentioned devices of the present invention can be configured with any components for various combinations, so as to achieve the purpose of simple filling and packaging. Those skilled in the art should understand that the present invention may also include other more detailed conventional modules or devices. Each device may be omitted as required or modifications, and not necessarily without the presence of other mods or devices between any devices. Anything that does not deviate from the basic structure of the present invention shall be within the scope of rights claimed by this patent, and shall be based on the scope of patent application in this case.

10: Main system

20: Spindle connector

21: Sensor

22: Decoder

23: Parameter correction

24: Calculus Execution

30: Intelligent monitoring

31: Smart data

40: Processing parts

Claims (4)

A multi-axis digital processing system, which is mainly composed of a main system, a main shaft connector, and an intelligent monitoring system. A multi-axis motion device and a main shaft connector are installed at the end of the main system, and then connected between the main system and the main shaft Intelligent monitoring is set at the spindle connector end, and the main feature is that it can easily and synchronously detect the workpiece and the system. The multi-axis digital processing system as described in claim 1, wherein the main system is composed of a multi-axis movement device, and a workpiece clamping device is installed on the upper end in conjunction with the spindle connector to achieve synchronous processing operations, and can Those who reduce equipment and labor costs and increase production capacity. The multi-axis digital processing system as described in Claim 1, wherein the spindle connector is equipped with a number of sensors with different requirements and functions on the main system end, and cooperates with the decoder to perform parameter correction and calculation execution, so as to achieve accurate Detection, in order to achieve the purpose of more convenient, precise, real-time debugging and correction processing and fast processing when processing several workpieces at the same time. The multi-axis digital processing system as described in Claim 1, wherein the intelligent monitoring can store intelligent data through sensors and parameter correction, so that the main system can generate intelligent data for judging processing performance, and as a In the future, the reference will be corrected between processing to improve the service life of the system and ensure the productivity.

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