CN205983117U - FLASH electrical automation control teaching experiment platform - Google Patents
FLASH electrical automation control teaching experiment platform Download PDFInfo
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- CN205983117U CN205983117U CN201621007618.1U CN201621007618U CN205983117U CN 205983117 U CN205983117 U CN 205983117U CN 201621007618 U CN201621007618 U CN 201621007618U CN 205983117 U CN205983117 U CN 205983117U
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Abstract
The utility model discloses a FLASH electrical automation control teaching experiment platform, including ten six at least functional modules: motor module, light fan module, pronunciation fingerprint module, alarm module, network wifi module, relay module, communication module, power module, flash module, sensor module, android panel computer module are forwardded to netC51AVR nucleus module, display module, IO extension module, PLC programmable controller module, switch button touch keyboard module, wireless / infrared decoding /, functional module mutual independence, through flash netC51AVR nucleus module and GPIO port are realized interconnect between the different functional modules, the reconfiguration constitutes the comprehensive teaching experiment platform that has new function. The utility model discloses a the client terminal is to communication, control, the linkage of each part of test bench.
Description
Technical field
This utility model is related to Automated condtrol teaching and scientific research technical field, and more particularly, to a kind of FLASH is electrically automatic
Change and control teaching experiment platform.
Background technology
Automated condtrol teaching experiment platform essential core has embedded scm controller and PLC,
Extending out module has information gathering part, information transfer, information processing part, information storage part.These composition structures are electric
The main contents of Automated condtrol study, particularly requisite in basic teaching notes.At present, for electric automatization control
Teaching experiment platform is broadly divided into three classes:The first kind, by producer provide hardware circuit board platform, and the corresponding schematic diagram of platform with
And program routine, the data book of chip device is provided, voluntarily checks that handbook carries out the operation of device by learner.Equations of The Second Kind,
There is provided corresponding study course by third party, cover exploitation software tool pack.The content being learnt in the first kind is solidified by producer's hardware
Restriction, many control interfaces do not reserve to allow learner independent assortment to piece together, and a lot of knowledge points are ignored.Although Equations of The Second Kind
The knowledge point of more principles is provided in the study course being provided by third party, but because course content and hardware platform have no substantially
Correspondence, emulation and test experiments during, the study concept obfuscation of knowledge point, and study emphasis in terms of there is also
Many not enough, not extensive towards the object of learner, the knowledge hierarchy of learner is discrete, and limitation is many and the complexity that operates is many
Sample, learner easily gets half the result with twice the effort.
Utility model content
In view of this, this utility model provides a kind of FLASH electric automatization control teaching experiment platform, solves institute
The content of study is solidified, by producer's hardware, the problem being limited.
The technological means that this utility model adopts are as follows:
A kind of FLASH electric automatization controls teaching experiment platform, including at least 16 functional modules:Motor module,
Light blower module, voice fingerprint module, alarm module, network wifi module, relay module, communication module, power module,
Flash-Net/C51/AVR nucleus module, display module, I/O expansion module, PLC module, switch key/
Touch keyboard module, wireless/infrared decoding/forwarding module, sensor assembly, Android panel computer module;Described function mould
Block is separate;By described Flash-Net/C51/AVR nucleus module and GPIO port realize described difference in functionality module it
Between be connected with each other, reconfigure to constitute there is the synthetic instruction experiment porch of New function.
Preferably, described motor module includes motor, direct current generator, steering wheel, electric control lock, electrically driven curtain control list
Unit;
It is mono- that described light blower module includes switch control unit, PWM dimming unit, fan swicth unit, Zigbee+51
Piece machine, RGB light modulation color cell;
Described voice fingerprint module includes SD card voice unit, IC-card read-write cell, ID card recognition unit, fingerprint recognition list
Unit;
Described alarm module includes warning keyboard, conversion unit of protocol, alarm lamp;
Described network wifi module includes TP-LINK router unit, Flash-Net infrared remote control unit, four line USB set
Line device;
Described communication module includes GMS unit, wireless wifi transparent transmission unit, Zigbee unit;
Described Flash-Net/C51/AVR nucleus module includes arm processor;
Described display module includes liquid crystal display, LED light unit, numeral method unit, lattice display list
Unit;
Described switch key/touch keyboard module includes shift knob unit, touch keyboard unit;
Described wireless/infrared decoding/forwarding module includes wireless decoding display circuit, wireless receiving decoding circuit, wireless
Learning-oriented decoding circuit, infrared remote control agreement study repeat circuit;
Described sensor assembly includes Zigbee communicating circuit.
Preferably, described light blower module, network wifi module, relay module and Flash-Net/C51/AVR
Nucleus module combination constitutes new synthetic instruction experiment porch.
Preferably, described motor module, network wifi module, relay module, Flash-Net/C51/AVR nucleus module
Combination constitutes new synthetic instruction experiment porch.
Preferably, described alarm module, network wifi module, Flash-Net/C51/AVR nucleus module, sensor assembly
Combination constitutes new synthetic instruction experiment porch.
Preferably, described network wifi module, Flash-Net/C51/AVR nucleus module, sensor assembly combination are constituted
New synthetic instruction experiment porch.
Teaching experiment platform is controlled using a kind of FLASH electric automatization provided by the utility model, will be using arriving
The cartoon medium file that Adobe FLASH makes combines Flash-Net/C51/AVR nucleus module and PLC mould
The interface of the core components such as block each experimental project is realized emulating on the equipment such as computer or mobile terminal,
Object in collection and Control release platform.Also experiment porch is linked in the Internet by Cloud Server, allows the body of learner
Test more life-like, image.This utility model achieves client terminal to the communication of testing stand all parts, control, linkage.
Brief description
Fig. 1 is structural representation of the present utility model;
Fig. 2 is motor module 1 structural representation of the present utility model;
Fig. 3 is light blower module 2 structural representation of the present utility model;
Fig. 4 is voice fingerprint module 3 structural representation of the present utility model;
Fig. 5 is alarm module 4 structural representation of the present utility model;
Fig. 6 is network wifi module 5 structural representation of the present utility model;
Fig. 7 is communication module 7 structural representation of the present utility model;
Fig. 8 is Flash-Net/C51/AVR nucleus module 9 structural representation of the present utility model;
Fig. 9 is display module 10 structural representation of the present utility model;
Figure 10 is switch key of the present utility model/touch keyboard module 13 structural representation;
Figure 11 is wireless/infrared decoding/forwarding module 14 structural representation of the present utility model;
Figure 12 is sensor assembly 15 structural representation of the present utility model;
Figure 13 is the structural representation of specific embodiment of the utility model 1;
Figure 14 is the structural representation of specific embodiment of the utility model 2;
Figure 15 is the structural representation of specific embodiment of the utility model 3;
Figure 16 is the structural representation of specific embodiment of the utility model 4.
Specific embodiment
Below in conjunction with accompanying drawing, principle of the present utility model and feature are described, example is served only for explaining this practicality
New, it is not intended to limit scope of the present utility model.
The purpose of this utility model is to provide one kind teaching experiment system be applied to industry automatic control course.Passing
In the industrial automatic control experiment porch of system newly-increased FALSH animation study course except Animation Programming and visual simulation effect with
Outward, docked with single-chip microcomputer and PLC using the interface in Adobe FLASH programming, reach the purpose connecting the Internet, become one
The experiment porch of network can be connected, we term it the integrated training platform of Internet of things system.Run on computers and control
Each experimental project of experiment porch processed.Because Adobe FLASH is that the exploitation that a specialty under Adobe makes animation is soft
Part, has super powerful visual experience and expressive ability, can accomplish to make one effect on the spot in person.Either in advertising
In or in webpage making be used to more.Will be civilian for the cartoon medium using AdobeFLASH to make in this experiment porch
Part comes to each experimental project in the equipment such as computer or mobile terminal with reference to the interface of the core components such as single-chip microcomputer and PLC
Upper realization is emulated, the object in collection and Control release platform.Also experiment porch is linked into the Internet by Cloud Server
In, make the experience of learner more life-like, image.
A kind of FLASH electric automatization controls teaching experiment platform, including at least 16 functional modules:Motor module 1,
Light blower module 2, voice fingerprint module 3, alarm module 4, network wifi module 5, relay module 6, communication module 7, electricity
Source module 8, Flash-Net/C51/AVR nucleus module 9, display module 10, I/O expansion module 11, PLC mould
Block 12, switch key/touch keyboard module 13, wireless/infrared decoding/forwarding module 14, sensor assembly 15, Android put down
Plate computer module 16;Described functional module is separate;By described Flash-Net/C51/AVR nucleus module 9 and GPIO end
Mouthfuls 17 realize being connected with each other between described difference in functionality module, reconfigure constitute have New function synthetic instruction experiment flat
Platform.
Preferably, described motor module 1 includes motor 1-1, direct current generator 1-2, steering wheel 1-3, electric control lock 1-4, electricity
Dynamic curtain control unit 1-5;
Described light blower module 2 include switch control unit 2-1, PWM dimming unit 2-2, fan swicth unit 2-3,
Zigbee+51 single-chip microcomputer 2-4, RGB dim color cell 2-5;
Described voice fingerprint module 3 include SD card voice unit 3-1, IC-card read-write cell 3-2, ID card recognition unit 3-3,
Fingerprint identification unit 3-4;
Described alarm module 4 includes warning keyboard 4-1, conversion unit of protocol 4-2, alarm lamp 4-3;
Described network wifi module 5 include TP-LINK router unit 5-1, Flash-Net infrared remote control unit 5-2, four
Line usb hub 5-3;
Described communication module 7 includes GMS unit 7-1, wireless wifi transparent transmission unit 7-2, Zigbee unit 7-3;
Described Flash-Net/C51/AVR nucleus module 9 includes arm processor 9-1;
Described display module 10 includes liquid crystal display 10-1, LED light unit 10-2, numeral method unit
10-3, lattice display unit 10-4;
Described switch key/touch keyboard module 13 includes shift knob unit 13-1, touch keyboard unit 13-2;
Described wireless/infrared decoding/forwarding module 14 includes wireless decoding display circuit 14-1, wireless receiving decoding circuit
14-2, wireless learning type decoding circuit 14-3, infrared remote control agreement study repeat circuit 14-4;
Described sensor assembly 15 includes Zigbee communicating circuit 15-1.
Specific embodiment 1
With reference to Figure 13, described light blower module 2, network wifi module 5, relay module 6 and Flash-Net/
C51/AVR nucleus module 9 combination constitutes new synthetic instruction experiment porch.
With netting twine any one network interface card of CH1-CH4 in TP-LINK router unit 5-1 in network wifi module 5
TCP/IP network card interface in interface and Flash-Net/C51/AVR nucleus module 9 connects.(when mobile phone, panel computer etc. are mobile
Equipment connects TP-LINK router unit 5-1 in this network wifi module 5.Intelligent housing interface A PP is installed on mobile phone
After open, click is turned on light, and mobile phone can go out to send burst of data to network wifi module 5.Network wifi module 5 receives data signal
Through netting twine on the Flash-Net nucleus module in Flash-Net/C51/AVR nucleus module 9 for the signal transmission.Play net
The effect of network transmission.)
With wire rod, P3.0 and P3.1 in the single-chip processor i/o mouth in Flash-Net/C51/AVR nucleus module 9 is connect respectively
NET-TXD and NET-RXD on Flash-Net nucleus module.(when router signal to Flash-Net nucleus module after,
Flash-Net nucleus module issues single-chip microcomputer with serial mode data signal.Play data transfer effect.)
With wire rod, the P3.3 in the single-chip processor i/o mouth in Flash-Net/C51/AVR nucleus module 9 is linked relay mould
On Port-8 on block 6.(single-chip microcomputer is converted into level mode and sends I/O mouth to after receiving data.Play signal processing to make
With.)
With wire rod, normally opened in relay module 6 is terminated on light blower module 2 again.(when single-chip microcomputer transmission level
When signal is to relay, relay will allow bulb form loop with attracting mode, make bulb bright.Play level driver switch to make
With.)
Specific embodiment 2
With reference to Figure 14, described motor module 1, network wifi module 5, relay module 6, Flash-Net/C51/AVR core
Core module 9 combination constitutes new synthetic instruction experiment porch.
With netting twine any one network interface card of CH1-CH4 in TP-LINK router unit 5-1 in network wifi module 5
TCP/IP network card interface in interface and Flash-Net/C51/AVR nucleus module 9 connects.(when mobile phone, panel computer etc. are mobile
Equipment connects TP-LINK router unit 5-1 in this network wifi module 5.Intelligent housing interface A PP is installed on mobile phone
After open, click is turned on light, and mobile phone can go out to send burst of data to network wifi module 5.Network wifi module 5 receives data signal
Through netting twine on the Flash-Net nucleus module in Flash-Net/C51/AVR nucleus module 9 for the signal transmission.Play net
The effect of network transmission.)
With wire rod, the serial i in Flash-Net/C51/AVR nucleus module 9/O expanded circuit DO5 to DO6 is connected to and is continued
Port-8 to Port-7 on electrical appliance module 6.(when TP-LINK router unit 5-1 signal to Flash-Net nucleus module
Afterwards, Flash-Net nucleus module is converted into level mode with Modbus protocols, data, plays data conversion effect.)
With wire rod the driving of normally opened electrically driven curtain control unit 1-5 terminating in motor module 1 of relay module 6
End.(Modbus protocols, data is converted into level mode when giving relay, and relay will allow electrically driven curtain shape with attracting mode
Become loop, allow electrically driven curtain to rotate forward with reversion, reach curtain and open the state with closing.Play the effect of level driver motor.)
Specific embodiment 3
With reference to Figure 15, described alarm module 4, network wifi module 5, Flash-Net/C51/AVR nucleus module 9, sensing
Device module 15 combination constitutes new synthetic instruction experiment porch.
With wire rod, alarm module 4 Shang mono- road input interface is connected to the list of Flash-Net/C51/AVR nucleus module 9
In piece machine I/O mouth, arranging this road on warning keyboard 4-1 is deployable model.Play setting security protection area alarm function.
With wire rod, the outfan of the Smoke Sensor on sensor assembly 15 is connected to Flash-Net/C51/AVR core
In the single-chip processor i/o mouth of module 9.If caught fire here still having coal gas leakage all signal can be passed to single-chip microcomputer.Play signal
Collection transmitting effect.
With wire rod, P3.0 and P3.1 in the single-chip processor i/o mouth in Flash-Net/C51/AVR nucleus module 9 is connect respectively
NET-TXD and NET-RXD on Flash-Net nucleus module.Pass to Flash- after sensor assembly 15 gathers signal
Net/C51/AVR nucleus module 9,9 level signals of Flash-Net/C51/AVR nucleus module, to alarm module 4, start report
Alert, signal simultaneously and pass on Flash-Net/C51/AVR nucleus module 9, play driving alarm data and process to transmit and make
With.
With netting twine any one network interface card of CH1-CH4 in TP-LINK router unit 5-1 in network wifi module 5
TCP/IP network card interface in interface and Flash-Net/C51/AVR nucleus module 9 connects.When signal passed to by single-chip microcomputer
After Flash-Net nucleus module, Flash-Net nucleus module passes to TP-LINK router unit 5-1, TP- through netting twine pattern
LINK router unit 5-1 passes to the mobile devices such as mobile phone with network mode again, allows mobile phone at every moment observe the situation of cell.
Play network transmission effect.
Specific embodiment 4
With reference to Figure 16, described network wifi module 5, Flash-Net/C51/AVR nucleus module 9,15 groups of sensor assembly
Close and constitute new synthetic instruction experiment porch.
With wire rod, the outfan of the ultrasonic sensor on sensor assembly 15 is connected to Flash-Net/C51/AVR core
In single-chip processor i/o mouth in core module 9.Single-chip microcomputer is treated.When coming without car, distance is distant.If there are car
When coming, distance is closer.So we can be carried out at every moment observing the parking stall in garage.Play signals collecting to pass
Defeated effect.
With wire rod, P3.0 and P3.1 in the single-chip processor i/o mouth of Flash-Net/C51/AVR nucleus module 9 is coupled with
NET-TXD and NET-RXD of Flash-Net nucleus module.At pass to single-chip microcomputer after sensor acquisition signal, single-chip microcomputer passes through
After reason, signal is passed on Flash-Net nucleus module, play data processing transmitting effect.
With netting twine any one network interface card of CH1-CH4 in TP-LINK router unit 5-1 in network wifi module 5
TCP/IP network card interface in interface and Flash-Net/C51/AVR nucleus module 9 connects.When signal passed to by single-chip microcomputer
After Flash-Net nucleus module, Flash-Net nucleus module passes to router through netting twine pattern, and router is again with network side
Formula passes to the mobile devices such as mobile phone, allows mobile phone at every moment observe the situation of the parking stall in garage.Play network transmission effect.
In sum, teaching experiment platform is controlled using a kind of FLASH electric automatization provided by the utility model, will
Combine Flash-Net/C51/AVR nucleus module and PLC programmable control using the cartoon medium file making to Adobe FLASH
The interface of the core components such as device module processed each experimental project is realized on the equipment such as computer or mobile terminal into
Row emulation, the object in collection and Control release platform.Also experiment porch is linked in the Internet by Cloud Server, allows study
The experience of person is more life-like, image.This utility model achieves client terminal to the communication of testing stand all parts, control, connection
Dynamic.
The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all this
Within the spirit of utility model and principle, any modification, equivalent substitution and improvement done etc., should be included in this utility model
Within the scope of protection.
Claims (6)
1. a kind of FLASH electric automatization controls teaching experiment platform it is characterised in that including at least 16 functional modules:
Motor module, light blower module, voice fingerprint module, alarm module, network wifi module, relay module, communication module,
Power module, Flash-Net/C51/AVR nucleus module, display module, I/O expansion module, PLC module,
Switch key/touch keyboard module, wireless/infrared decoding/forwarding module, sensor assembly, Android panel computer module;
Described functional module is separate;Described difference is realized by described Flash-Net/C51/AVR nucleus module and GPIO port
It is connected with each other between functional module, reconfigure and constitute the synthetic instruction experiment porch with New function.
2. a kind of FLASH electric automatization according to claim 1 controls teaching experiment platform it is characterised in that described
Motor module includes motor, direct current generator, steering wheel, electric control lock, electrically driven curtain control unit;
Described light blower module includes switch control unit, PWM dimming unit, fan swicth unit, Zigbee+51 monolithic
Machine, RGB light modulation color cell;
Described voice fingerprint module includes SD card voice unit, IC-card read-write cell, ID card recognition unit, fingerprint identification unit;
Described alarm module includes warning keyboard, conversion unit of protocol, alarm lamp;
Described network wifi module includes TP-LINK router unit, Flash-Net infrared remote control unit, four line USB set lines
Device;
Described communication module includes GMS unit, wireless wifi transparent transmission unit, Zigbee unit;
Described Flash-Net/C51/AVR nucleus module includes arm processor;
Described display module includes liquid crystal display, LED light unit, numeral method unit, lattice display unit;
Described switch key/touch keyboard module includes shift knob unit, touch keyboard unit;
Described wireless/infrared decoding/forwarding module includes wireless decoding display circuit, wireless receiving decoding circuit, wireless learning
Type decoding circuit, infrared remote control agreement study repeat circuit;
Described sensor assembly includes Zigbee communicating circuit.
3. a kind of FLASH electric automatization according to claim 1 controls teaching experiment platform it is characterised in that described
Light blower module, network wifi module, relay module and the combination of Flash-Net/C51/AVR nucleus module constitute new
Synthetic instruction experiment porch.
4. a kind of FLASH electric automatization according to claim 1 controls teaching experiment platform it is characterised in that described
Motor module, network wifi module, relay module, the combination of Flash-Net/C51/AVR nucleus module constitute new synthesis religion
Learn experiment porch.
5. a kind of FLASH electric automatization according to claim 1 controls teaching experiment platform it is characterised in that described
Alarm module, network wifi module, Flash-Net/C51/AVR nucleus module, sensor assembly combination constitute new synthesis religion
Learn experiment porch.
6. a kind of FLASH electric automatization according to claim 1 controls teaching experiment platform it is characterised in that described
Network wifi module, Flash-Net/C51/AVR nucleus module, sensor assembly combination constitute new synthetic instruction experiment and put down
Platform.
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CN201621007618.1U CN205983117U (en) | 2016-08-31 | 2016-08-31 | FLASH electrical automation control teaching experiment platform |
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CN201621007618.1U CN205983117U (en) | 2016-08-31 | 2016-08-31 | FLASH electrical automation control teaching experiment platform |
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Publication Number | Publication Date |
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CN205983117U true CN205983117U (en) | 2017-02-22 |
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2016
- 2016-08-31 CN CN201621007618.1U patent/CN205983117U/en active Active
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