CN104375965B - Many toolroom machine operating systems - Google Patents

Abstract

The present invention provides a kind of many toolroom machine operating systems, include an at least control device and multiple toolroom machines, the control device includes data cell and the first transmission receiving module, and the toolroom machine includes performing module and the second transmission receiving module, the first transmission receiving module is mutually communicated with the second transmission receiving module, will be sent out after data-modulated, or by the data solution modulation received, and operated, separated by by computer and toolroom machine, application more efficiently can be reached, and rate is moved by higher mechanical family, coordinate the data transfer of Data correction and modulation demodulation, network transmission or the caused distortion of compression or noise jamming can be avoided, and one-to-many or multi-to-multi operating system management can be reached.

Description

Many toolroom machine operating systems

Technical field

The present invention relates to a kind of many toolroom machine operating systems, especially control device and toolroom machine is one-to-many or multipair Many operating system.

Background technology

The toolroom machine of current Automated condtrol, such as computer numerical control (Computer Numerical Control, CNC) lathe etc., is arranged in pairs or groups a performing module with industrial computer, such as cutter module, cooling water module, is cut Oily module is cut by an operating personnel to carry out, that is, so-called one-to-one pattern.But this may not have when order volume is big There is so much operator to operate, and cause personnel to be too busy to attend to anything else, thereby increases and it is possible to cause the dynamic rate of toolroom machine man not high.

With the lifting of computer efficiency, the mobile phone of current multi-core, or tablet PC, its task performance are all higher than Previous industrial computer, while network speed is lifted, a pair of multi-modes are feasible, but existing situations in theory It is compression, the interference of network package, easily produces the mistake of data, this may can all causes the flow of production, error in data, and Cause the influence for producing product, in addition, network there may be unstable situation, and cause the stagnation of data transfer, lose or wrong By mistake, it is then desired to a kind of system that can solve the problem that problem above.

The content of the invention

It is a primary object of the present invention to provide a kind of many toolroom machine operating systems, the system includes an at least control device And multiple toolroom machines, at least one phase that an at least control device passes through the wired or wireless network architecture with the toolroom machine Mutually communication.Control device includes data cell and the first transmission receiving module, and data cell will be in toolroom machine to produce one The production data made, and the first transmission receiving module is connected with the data cell, receives the production data, and By the production data-modulated into being sent in toolroom machine after a modulation data, or receive the signal returned from toolroom machine After be demodulated change.

Respectively the toolroom machine includes performing module and one second transmission receiving module, and the second transmission receiving module and first is passed Send receiving module mutually to communicate, and be connected with the performing module, to receive the tune transmitted by the first transmission receiving module Become data, and the modulation data solution is tuned as being sent to the performing module after production data and carry out production, and The feedback signal from the performing module is received, and the feedback signal is tuned as after a modulation feedback signal, first is returned to Receiving module is transmitted, and the modulation feedback signal solution is tuned as after feedback signal transmitting again to number by the first transmission receiving module again According to unit.

First transmission receiving module includes the first data correction unit, the first data-modulated/demodulation unit and first Transmission/reception unit, and the second transmission receiving module includes one second data correction unit, second data-modulated/demodulation Become unit and one second transmission/reception unit.First data correction unit connects the data cell, to the production data Automatically corrected, and by the production data output after automatic correction, the first data-modulated/demodulation unit with this first Data correction unit is connected, and receives the production data after the automatic correction, and by production data progress modulation It is produced as the modulation data.First transmission/reception unit is connected with first data-modulated/demodulation unit, receives the modulation Data, and be sent to out.

Second transmission/reception unit is mutually communicated with first transmission/reception unit, is received the modulation data and is exported, Second data-modulated/demodulation unit is connected with second transmission/reception unit, receives the modulation data, and by the modulation Data solution is tuned as exporting after production data, and the second data correction unit connects with second data-modulated/demodulation unit Connect, receive the production data and be resent to performing module after carrying out Data correction again.And performing module is based on the production Feedback data produced by product creation data, is also reversed in this way.

Further, first/second transmission receiving module also includes an at least data transmission interface, for example, memory card is inserted Groove, versabus slot, 1394 slots, HDMI slots etc., can be urgent, or network transmission unstable state timing, directly Transmit data.

The present invention is, by computer and toolroom machine separation, can to reach application more efficiently, and higher mechanical family Dynamic rate, and coordinate the data transfer of Data correction and modulation demodulation, the distortion caused by network transmission or compression can be avoided Or noise jamming, and one-to-many or multi-to-multi operating system management can be reached.

Brief description of the drawings

Fig. 1 is the cell schematics of many toolroom machine operating systems of the invention；

Fig. 2 is the detailed maps of the first transmission receiving module and the second transmission receiving module in Fig. 1；And

Fig. 3 is the detailed maps of the first transmission receiving module or the second transmission receiving module in Fig. 1.

Wherein, description of reference numerals is as follows：

Toolroom machine operating system more than 1

10 control devices

11 data cells

13 first transmission receiving modules

20 toolroom machines

21 performing modules

23 second transmission receiving modules

25 data transmission interfaces

31 first data correction units

33 first data-modulateds/demodulation unit

35 first transmission/reception units

41 second data correction units

43 second data-modulateds/demodulation unit

45 second transmission/reception units

Embodiment

Schema and element numbers are coordinated to do more detailed description to embodiments of the present invention below, to make art technology Personnel can implement according to this with reference to specification word.

Refering to Fig. 1, Fig. 1 is the cell schematics of many toolroom machine operating systems of the invention.As shown in figure 1, multiplexing of the present invention Tool machine operating system 1 includes an at least control device 10, and multiple toolroom machines 20, an at least control device 10 and the work At least one mutually communication that tool machine 20 passes through the wired or wireless network architecture.Control device 10 comprising a data cell 11 and One first transmission receiving module 13, data cell 11 to produce one will toolroom machine 20 make a production data, and First transmission receiving module 13 is connected with the data cell 11, receives the production data, and the production data are adjusted It is sent to after becoming a modulation data in toolroom machine 20, or change is demodulated after signal of the reception from the passback of toolroom machine 20, Wherein the control device 10 can be computer, mobile phone, or tablet PC.In addition, the first transmission receiving module 13 can be with The inside of control device 10 is installed in, or is set up in the outside of control device 10 in addition.

Respectively the toolroom machine 20 includes a performing module 21 and one second transmission receiving module 23, the second transmission receiving module 23 and first transmit the mutually communication, and being connected with the performing module 21 of receiving module 13, are received to receive by first transmission The modulation data that module 13 is transmitted, and the modulation data solution is tuned as being sent to the performing module 21 after production data Production is carried out, and receives the feedback signal from the performing module 21, and it is anti-that the feedback signal is tuned as into a modulation Present after signal, return to the first transmission receiving module 13, and the first transmission receiving module 13 again demodulates the modulation feedback signal It is changed into after feedback signal transmitting again to data cell 11.In addition, the second transmission receiving module 23 can be installed in toolroom machine 20 Inside, or the outside of toolroom machine 20 is set up in addition.

Refering to Fig. 2, Fig. 2 is the detailed maps of the first transmission receiving module and the second transmission receiving module in Fig. 1.As schemed Shown in 2, the first transmission receiving module 13 includes one first data correction unit 31, first data-modulated/demodulation unit 33 And one first transmission/reception unit 35, and the second transmission receiving module 23 includes one second data correction unit 41,1 the The transmission/reception unit 45 of two data-modulateds/demodulation unit 43 and 1 second.First data correction unit 31 connects the data The production data are corrected by unit 11 automatically, and by the production data output after automatic correction, the first data Modulation demodulation unit 33 is connected with first data correction unit 31, receives the production data after the automatic correction, and The production data are subjected to modulation and the modulation data are produced as.First transmission/reception unit 35 is adjusted with first data Change/demodulation unit 33 is connected, and receives the modulation data, and be sent to out.

Second transmission/reception unit 45 is mutually communicated with first transmission/reception unit 35, receives the modulation data and defeated Go out, second data-modulated/demodulation unit 43 is connected with second transmission/reception unit 45, receive the modulation data, and will The modulation data solution is tuned as exporting after production data, the second data correction unit 41 and second data-modulated/demodulation Become unit 43 to connect, receive the production data and be resent to performing module 21 after carrying out Data correction again.And perform Module 21 is also reversed in this way based on the feedback data produced by the production data, is not being repeated herein.

It is the detailed maps of the first transmission receiving module or the second transmission receiving module in Fig. 1 refering to Fig. 3.Such as Fig. 3 institutes Show, the first transmission transmission receiving module 23 of receiving module 13 or second, further comprising at least a data transmission interface 25, the number Can be at least one of card slot, versabus slot, 1394 slots, HDMI slots according to coffret 25, can With urgent, or the timing of network transmission unstable state, directly transmit data.It is a feature of the present invention that by computer and work Tool machine is separated, and can reach that rate is moved in application more efficiently, and higher mechanical family, and coordinate Data correction and modulation/solution The data transfer of modulation, can avoid network transmission or the caused distortion of compression or noise jamming, or transmit when stagnating Data are discontinuous, and can reach one-to-many or multi-to-multi operating system management.

As described above is only, to explain presently preferred embodiments of the present invention, to be not intended to according to this be the present invention any shape Limitation in formula, therefore, it is all have make any modification for the present invention or change under identical spirit, should all wrap Include the invention is intended to the category of protection.

Claims (9)

1. a kind of many toolroom machine operating systems, it is characterised in that include：

An at least control device, comprising a data cell and one first transmission receiving module, the data cell is to produce one Production data, and the first transmission receiving module is connected with the data cell, receives the production data, and this is produced Product creation data modulation is transmitted into after a modulation data；And

Multiple toolroom machines, respectively the toolroom machine comprising a performing module and one second transmission receiving module, this second transmission receive Module is mutually communicated with the first transmission receiving module, and is connected with the performing module, is received to receive by first transmission The modulation data that module is transmitted, and the performing module is sent to after the modulation data solution is tuned as into the production data Production is carried out, and receives the feedback signal from the performing module, and it is anti-that the feedback signal is tuned as into a modulation Present after signal, return to the first transmission receiving module, and the first transmission receiving module again demodulates the modulation feedback signal It is changed into after feedback signal transmitting again to data cell,

Wherein, this first transmission receiving module comprising one first data correction unit, first data-modulated/demodulation unit with And one first transmission/reception unit, and the second transmission receiving module is adjusted comprising one second data correction unit, one second data Change/demodulation unit and one second transmission/reception unit, first data correction unit connects the data cell, to the production Product creation data is corrected automatically, and by the production data output after automatic correction, first data-modulated/solution modulation Unit is connected with first data correction unit, receives the production data after the automatic correction, and by the production number The modulation data are produced as according to modulation is carried out, first transmission/reception unit connects with first data-modulated/demodulation unit Connect, receive the modulation data, and be sent to out, second transmission/reception unit and the first transmission/reception unit phase intercommunication News, receive the modulation data and export, second data-modulated/demodulation unit is connected with second transmission/reception unit, is connect The modulation data are received, and the modulation data solution is tuned as output after production data, second data correction unit is with being somebody's turn to do Second data-modulated/demodulation unit connection, receives the production data and is resent to this after carrying out Data correction again Performing module, and the performing module is reversely entered based on the feedback data produced by the production data according to above-mentioned unit OK.

2. many toolroom machine operating systems as claimed in claim 1, it is characterised in that the second transmission receiving module with this first Transmission receiving module is at least one mutually communication by the wired or wireless network architecture.

3. many toolroom machine operating systems as claimed in claim 1, it is characterised in that the first transmission receiving module is mounted in The inside of the control device.

4. many toolroom machine operating systems as claimed in claim 1, it is characterised in that the first transmission receiving module is mounted in The outside of the control device.

5. many toolroom machine operating systems as claimed in claim 1, it is characterised in that the second transmission receiving module is mounted in The inside of the toolroom machine.

6. many toolroom machine operating systems as claimed in claim 1, it is characterised in that the second transmission receiving module is mounted in The outside of the toolroom machine.

7. many toolroom machine operating systems as claimed in claim 1, it is characterised in that an at least control device is calculated comprising one Machine, a mobile phone, or a tablet PC at least one.

8. many toolroom machine operating systems as claimed in claim 1, it is characterised in that second transmission/reception unit with this Two transmission/reception units are at least one mutually communications by the wired or wireless network architecture.

9. many toolroom machine operating systems as claimed in claim 1, it is characterised in that the first transmission receiving module and this One of two transmission receiving modules include an at least data transmission interface, and an at least data transmission interface includes a memory At least one of card slot, a versabus slot, one 1394 slots, a HDMI slots.