CN209380731U - Multi-axis servo drive control system and robot system - Google Patents

Abstract

The utility model relates to the field of motor control, and provides a multi-shaft servo drive control system, which comprises an electric control cabinet and an executing device; the electric control cabinet is internally provided with a motion control unit, a servo driving unit and at least two power modules, the servo driving unit is electrically connected with the motion control unit, and each power module is electrically connected with the servo driving unit; the executing device is provided with a decoding module and at least two motor modules, each motor module corresponds to each power module one by one, each motor module is electrically connected with the corresponding power module, and an encoder of each motor module is electrically connected with the decoding module and outputs signals to the servo drive control unit. The provided robot system adopts the multi-axis servo drive control system. The independent decoding module is arranged on the execution device, so that the wiring quantity between the electric control cabinet and the execution device is reduced, the wiring cost is reduced, the wiring of the multi-axis servo drive and control system is simple, and the installation and maintenance are facilitated.

Description

Multiple-axis servo controls system and robot system

Technical field

The utility model relates to the control field of motor, it is specifically related to a kind of multiple-axis servo and controls system and system, robot System.

Background technique

Robot drives execution unit using servo motor, greatly improves industrial efficiency, promotes production Industry upgrading, however due to industrially higher and higher to the requirement of robot, the task that robot needs to be implemented becomes more and more multiple Miscellaneous, servo motor quantity involved in uniform machinery people is also more and more, this is resulted between robot and electrical control cabinet Cabling quantity is more and more, so that the cabling between robot and electrical control cabinet becomes more and more chaotic and complicated, is unfavorable for Staff controls the maintenance and management of system to motor servo.

Summary of the invention

The main purpose of the utility model is to provide the simple multiaxis of cabling between a kind of executive device and electrical control cabinet Servo controls system.

The another object of the utility model is to provide the simple air conditioner of cabling between a kind of robot and electrical control cabinet.

In order to realize above-mentioned main purpose, multiple-axis servo provided by the utility model controls system, including electrical control Cabinet and executive device；It is equipped with motion control unit, servo drive unit and at least two power modules in electrical control cabinet, watches It takes driving unit to be electrically connected with motion control unit, each power module is electrically connected with servo drive unit；It is set in executive device There are a decoder module and at least two motor modules, each motor module and each power module correspond, and each motor module It is electrically connected with corresponding power module, the encoder of each motor module is electrically connected with decoder module, and decoder module drives to servo Dynamic control unit output signal.

Therefore the utility model is designed by the setting and structure for controling system to multiple-axis servo, by executing Individual decoder module is set on device, reduces the number of wires between electrical control cabinet and executive device, reduces wiring Cost, and the wiring for making multiple-axis servo control system becomes simply to be conducive to installation and maintenance that multiple-axis servo controls system, In addition, multiple-axis servo driving unit, which due to no longer needing to be decoded calculating, also helps, reduces multiple-axis servo driving list The calculated load of member promotes control efficiency.

One Preferable scheme is that, servo drive unit includes multiple-axis servo driver, and servo-driver is set as one, respectively Power module is electrically connected with multiple-axis servo driver.

Therefore it is controlled after the same multiple-axis servo drive processes from the control signal that motion controller issues in this way Multiple electric motors processed save the quantity of servo-driver, reduce the volume that multiple-axis servo controls system, enhance each motor Between the harmony that operates, have the advantages that at low cost, small in size and performance is good.

Further embodiment is that multiple-axis servo driver is the first on piece chip, and the first on piece integrated chip has at first It manages device and second processor, motion control unit includes motion controller, first processor is electrically connected with motion controller, and second Processor is electrically connected with each power module.

Further scheme is that first processor is arm processor.

Therefore it is grasped convenient for staff by the information that peripheral hardware is fed back using arm processor convenient for connection peripheral hardware Multiple-axis servo controls the operating status of system.

Further scheme is that second processor is primary scene programmable gate array.

Therefore the economy that promotion multiple-axis servo controls system is conducive to using field programmable gate array.

Further embodiment is, motion controller and multiple-axis servo driver are integrated on same printed circuit board, and Motion controller is communicated with multiple-axis servo driver using plate grade parallel bus.

Therefore compared to Industrial Ethernet bus communication, using the plate grade communication mode traffic rate of local bus Fastly, amount of communication data is big and good reliability.

Further scheme is that motion controller is the second on piece chip, is integrated at third in the second on piece chip Manage device and fourth processor.

Further scheme is that third processor is dsp processor.

Further scheme is that fourth processor is arm processor.

Therefore dsp processor and arm processor cooperative compensating, be conducive to the performance of lifting motion controller.

Further scheme is that motion controller is communicated with multiple-axis servo driver by local bus.

Therefore the plate grade communication mode message transmission rate of local bus is fast, is conducive to multiple-axis servo and controls system Efficient operation.

Further embodiment is that it further includes storage capacitor and voltage protection module, storage capacitor that multiple-axis servo, which controls system, In the power supply line of power module, voltage protection module is electrically connected storage capacitor and second processor.

Further scheme is that voltage protection module includes over-voltage protection module and/or low-voltage protection module.

Another Preferable scheme is that, decoder module includes secondary scene programmable gate array.

Another Preferable scheme is that, it further includes intelligent terminal, intelligent terminal and motion control that multiple-axis servo, which controls system, Device is electrically connected.

Another Preferable scheme is that, it further includes being additionally provided with monitoring device that multiple-axis servo, which controls system, monitoring device and more Axis servo-driver is electrically connected.

Another Preferable scheme is that, servo drive controller is equipped at least one reserved I/O interface.

Also one Preferable scheme is that, power module is set as six, and motor module is set as six.

In order to realize that above-mentioned another object, robot system provided by the utility model include that multiple-axis servo above-mentioned drives Control system, executive device are robot.

Therefore due to controling system using multiple-axis servo above-mentioned, reduce between electrical control cabinet and robot Number of wires, reduce wiring cost, and the wiring for making multiple-axis servo control system becomes simply, to be conducive to multiple-axis servo The installation and maintenance of system are controled, in addition, multiple-axis servo driving unit is due to no longer needing to be decoded calculating, it is also advantageous In the calculated load for reducing multiple-axis servo driving unit, control efficiency is promoted.

Detailed description of the invention

Fig. 1 is the structure chart that the utility model multiple-axis servo controls system embodiment；

Fig. 2 is the schematic diagram of internal structure of motion controller in Fig. 1；

Fig. 3 is the schematic diagram of internal structure of multiple-axis servo driver in Fig. 1.

The following is a further explanation of the present invention with reference to the accompanying drawings and embodiments.

Specific embodiment

Multiple-axis servo controls system embodiment:

It includes electrical control cabinet 100 and executive device 200, such as electric-controlled that the multiple-axis servo of the present embodiment, which controls system, Cabinet 100 and manipulator processed.

Rectification module 101, power module 102, the storage capacitor 103, Guo Qian electricity of three-phase electricity are equipped in electrical control cabinet 100 Press protective module 104, motion controller 105, multiple-axis servo driver 106 and six power modules, six power modules point It Wei not power module 1, power module 2 108, power module 3 109, power module 4 110, power module 5 111 and function Rate module 6 112.

Multiple-axis servo driver 106 includes one piece of first on piece chip, and motion controller 105 includes one piece of second on piece core Piece, the first on piece chip and the second on piece integrated chip are in same printed circuit board (Printedcircuitboard, PCB) On.

Preferably, the first on piece chip uses the cyclone series SOC chip of altera company, the first on piece chipset Cheng Youyi arm processor 1061 and a field programmable gate array 1062 (FPGA), the first on piece chip are equipped with parallel logical Believe interface 1063, usb 1 064 and RS232 interface 1065, arm processor 1061 and scene in the first on piece chip Programmable gate array 1062 is communicated using internal bus.

Second on piece integrated chip has arm processor 1052 and dsp processor 1051, and the second on piece chip is equipped with parallel Communication interface 1053, Ethernet interface 1054 and RS485 interface 1055, arm processor 1052 in the second on piece chip with It is communicated between dsp processor 1051 using chip interior bus.

First on piece chip and the second on piece integrated chip on same printed circuit board, and the first on piece chip with Second on piece chip passes through the signal wire direct communication printed on printed circuit board, compared to communications sides such as Industrial Ethernet buses Formula, amount of communication data fast using the plate grade communication mode traffic rate of local bus be big, strong interference immunity and good reliability.It is excellent Selection of land, the first on piece chip realize that plate grade communicates using local bus (localbus) with the second on piece chip.Specifically, first On piece chip and the second on piece chip use pci bus or GPMC bus communication, and traffic rate can reach several hundred million even 1GB.

The three-phase of 220V is formed after rectification module 101 and storage capacitor 103 filter after being electrically accessed electrical control cabinet 100 310V DC bus-bar voltage is six power module power supplies, furthermore crosses after low-voltage protection module 104 acquires busbar voltage and conveys Field programmable gate array on to the first on piece chip carries out protection control；Two-phase and power module 102 in three-phase electricity connect It connects, powers for power module 102, power module 102 is that motion controller 105 and multiple-axis servo driver 106 are powered.

Executive device 200 is equipped with decoder module and six motor modules, and six motor modules are respectively motor module one 201, motor module 2 202, motor module 3 203, motor module 4 204, motor module 5 205 and motor module 6 206, Six motor modules are each provided with an encoder, and six encoders are respectively encoder 1, encoder 2 208, encoder 3 209, encoder 4 210, encoder 5 211 and encoder 6 212, one 107 electricity of motor module 1 and power module Connection, motor module 2 202 are electrically connected in power module 2 108, and motor module 3 203 is electrically connected with power module 3 109, electricity Machine module 4 204 is electrically connected with power module 4 110, and motor module 5 205 is electrically connected with power module 5 111, motor module 6 206 are electrically connected with power module 6 112, and the encoder of each motor module is electrically connected with decoder module 213, six decoding moulds Block will be sent to first after the parsing of the running state informations such as the location information of six motors respectively by way of universal serial bus Upper chip forms the closed-loop control of motor, and the implementation of universal serial bus can be CAN bus, Ethercat bus etc., decoding Module 213 can specifically use field programmable gate array (FPGA).Individual decoder module is set in executive device 200 213, reduce the number of wires between electrical control cabinet 100 and executive device 200, reduces wiring cost, and make multiaxis The wiring that servo controls system becomes simply to be conducive to installation and maintenance that multiple-axis servo controls system, in addition, the first on piece core Piece also helps the calculated load for reducing the first on piece chip, promotes multiaxis and watch due to no longer needing to be decoded calculating Clothes control the control efficiency of system.

The same multiple-axis servo driver 106 connects six power modules, the control issued in this way from motion controller 105 Signal controls 6 motors after the processing of the same multiple-axis servo driver 106, saves the quantity of servo-driver, simplifies Multiple-axis servo controls the composition of system, is conducive to diminution multiple-axis servo and controls the volume of system, in addition, being watched using the same multiaxis It takes driver 106 and is uniformly controlled 6 motors, be conducive to promote the harmony operated between each motor, be conducive to executive device 200 operation.

Power module can select IGBT module or IPM module etc..

Preferably, it further includes monitoring device 116 that multiple-axis servo, which controls system, and monitoring device 116 is connected to the first on piece core The usb 1 064 or RS232 interface 1065 of piece, monitoring device 116 can be laptop, tablet computer etc. and intelligently set Standby, monitoring device 116 receives the parameters such as the control of each motor module and operating status from the first on piece chip, and by these parameters into Row analysis processing and display.

Preferably, it further includes industry control smart machine 115, such as industrial personal computer or dedicated teaching machine that multiple-axis servo, which controls system, Industry control smart machine is connected to the Ethernet interface of the second on piece chip.

Preferably, the RS485 interface of the second on piece chip is reserved I/O interface, convenient for controlling other exterior I/O devices 114 with the motor module Collaboration of executive device 200.For example, reserved RS485 interface 1055, the RS485 of the second on piece chip Interface 1055 connects alarm lamp by I/0 device control module 113, and in motor module operation irregularity, the second on piece chip can be with Operator is reminded by the flashing of control alarm lamp, wherein I/O device control module 113 can be field-programmable gate array It arranges (FPGA).

Robot system embodiment:

The robot system of the present embodiment controls system using multiple-axis servo above-mentioned, and decoder module is added in robot 213 so that the number of wires between robot and electrical control cabinet 100 is reduced, reduce wiring cost, and make robot with Wiring between electrical control cabinet 100 becomes the installation and maintenance that are simply conducive to robot system, in addition, multiple-axis servo drives For dynamic device 106 due to no longer needing to be decoded calculating, the calculating for also helping reduction multiple-axis servo driver 106 is negative Lotus promotes control efficiency.

Finally it is emphasized that the above is only the preferred embodiment of the present invention, it is not limited to this reality With novel, for those skilled in the art, the utility model can have various change and change, all in the utility model Spirit and principle within, any modification, equivalent substitution, improvement and etc. done should be included in the protection model of the utility model Within enclosing.

Claims (18)

1. multiple-axis servo controls system, including electrical control cabinet and executive device；

It is characterized by:

Motion control unit, servo drive unit and at least two power modules are equipped in the electrical control cabinet, it is described to watch It takes driving unit to be electrically connected with the motion control unit, each power module is electrically connected with the servo drive unit；

The executive device is equipped with a decoder module and at least two motor modules, each motor module and each function Rate module corresponds, and each motor module is electrically connected with the corresponding power module, the volume of each motor module Code device is electrically connected with the decoder module, and the decoder module is to the servo drive control element output signal.

2. multiple-axis servo according to claim 1 controls system, it is characterised in that:

The servo drive unit includes multiple-axis servo driver, and the servo-driver is set as one, each power module with The multiple-axis servo driver electrical connection.

3. multiple-axis servo according to claim 2 controls system, it is characterised in that:

The multiple-axis servo driver is the first on piece chip, and the first on piece integrated chip has at first processor and second Device is managed, the motion control unit includes motion controller, and the first processor is electrically connected with the motion controller, described Second processor is electrically connected with each power module.

4. multiple-axis servo according to claim 3 controls system, it is characterised in that:

The first processor is arm processor.

5. multiple-axis servo according to claim 3 controls system, it is characterised in that:

The second processor is primary scene programmable gate array.

6. controling system according to the described in any item multiple-axis servos of claim 3 to 5, it is characterised in that:

The motion controller and the multiple-axis servo driver are integrated on same printed circuit board, and the motion control Device is communicated with the multiple-axis servo driver using plate grade parallel bus.

7. multiple-axis servo according to claim 6 controls system, it is characterised in that:

The motion controller is the second on piece chip, is integrated with third processor and fourth process in the second on piece chip Device.

8. multiple-axis servo according to claim 7 controls system, it is characterised in that:

The third processor is dsp processor.

9. multiple-axis servo according to claim 7 controls system, it is characterised in that:

The fourth processor is arm processor.

10. multiple-axis servo according to claim 6 controls system, it is characterised in that:

The motion controller is communicated with the multiple-axis servo driver by local bus.

11. controling system according to the described in any item multiple-axis servos of claim 3 to 5, it is characterised in that:

It further includes storage capacitor and voltage protection module that the multiple-axis servo, which controls system, and the storage capacitor is set to the power In the power supply line of module, the voltage protection module is electrically connected the storage capacitor and the second processor.

12. multiple-axis servo according to claim 11 controls system, it is characterised in that:

The voltage protection module includes over-voltage protection module and/or low-voltage protection module.

13. multiple-axis servo according to any one of claims 1 to 5 controls system, it is characterised in that:

The decoder module includes secondary scene programmable gate array.

14. controling system according to the described in any item multiple-axis servos of claim 3 to 5, it is characterised in that:

It further includes intelligent terminal that the multiple-axis servo, which controls system, and the intelligent terminal is electrically connected with the motion controller.

15. multiple-axis servo according to any one of claims 1 to 5 controls system, it is characterised in that:

It further includes monitoring device that the multiple-axis servo, which controls system, and the monitoring device is electrically connected with the multiple-axis servo driver.

16. multiple-axis servo according to any one of claims 1 to 5 controls system, it is characterised in that:

The servo drive controller is equipped at least one reserved I/O interface.

17. multiple-axis servo according to any one of claims 1 to 5 controls system, it is characterised in that:

The power module is set as six, and the motor module is set as six.

18. robot system, it is characterised in that:

The robot system includes that such as described in any item multiple-axis servos of claim 1 to 17 control system, described to execute dress It is set to robot.