CN201294658Y - Wireless remote control energy-saving illumination system - Google Patents

Wireless remote control energy-saving illumination system Download PDF

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Publication number
CN201294658Y
CN201294658Y CNU2008201430721U CN200820143072U CN201294658Y CN 201294658 Y CN201294658 Y CN 201294658Y CN U2008201430721 U CNU2008201430721 U CN U2008201430721U CN 200820143072 U CN200820143072 U CN 200820143072U CN 201294658 Y CN201294658 Y CN 201294658Y
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China
Prior art keywords
circuit
control
lamp
sampler
wireless remote
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CNU2008201430721U
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卢国珠
张子方
康致祥
张建
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TIANJIN LIANDA COMMUNICATION DEVELOPMENT Co Ltd
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TIANJIN LIANDA COMMUNICATION DEVELOPMENT Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B20/00Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
    • Y02B20/40Control techniques providing energy savings, e.g. smart controller or presence detection

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Abstract

The utility model relates to a wireless remote control energy-saving lighting system which comprises a front-end sub-control unit and a far-end master control unit, wherein the front-end sub-control unit comprises a sub control platform, a high-pole lighting apparatus group control part and a sampler, wherein the output of the sub control platform is respectively connected with a plurality of grouping alternating contactors in the high-pole lighting apparatus group control part, the alternating contactors are respectively connected with joint lights in the groups which are respectively connected with the input of the sampler, the output of the sampler is connected with the input of the sub control platform, the far-end master control unit comprises a master control platform and an upper set, wherein the master control platform receives serial data sent from the upper set, and sends out DTM signals and FSK signals through a vehicle station in the master control platform after treating by a control circuit, and when the master control platform receives the signals, the master control platform return the status information of a lighting lamp to the upper set, and realizes the remote control and status inquiry to the front-end high-pole lighting apparatus through the upper set. The wireless remote control energy-saving lighting system can be applied on night lighting systems of public squares, stations, wharfs and the like.

Description

The wireless remote control energy efficient lighting system
Technical field
The utility model belongs to the lighting apparatus field, particularly a kind of wireless remote control energy efficient lighting system.Native system can be widely used in public square, and road traffic in the night lighting system control of station terminal etc., plays purpose of energy saving, and improves the operating efficiency of industrial and mining enterprises.
Background technology
Field lighting and public illumination occasion at many large industrial enterprises, mainly adopt following several mode to the open and close of lighting apparatus:
1. the switch of the high mast lighting equipment in early stage generally is located near every lamp stand, open and close lamp action need total man worker operation, and each open and close lamp all will arrive every high mast lighting equipment place in person and operate.
2. the high mast lighting equipment of main flow adopts various electronic switches, the open and close of each lamp stand of centralized control more at present.Relatively effectively reduced the artificial state of open and close lamp repeatedly.
3. some intelligentized control circuits are installed near every high mast lighting equipment, according to open and close lamp regularly is set, no longer need manual operation generally speaking.
More than 2,3 control mode just simply with people's freeing in various degree from the operation of original scene, but on realistic meaning, still have following some tangible weak point:
The above various control modes of I all are completely open and close, and energy waste is bigger.In traditional field lighting is used, no matter be that the whole lighting apparatus in the zone or each the node illuminating lamp in the single lighting apparatus are carried out the open and close operation, all be out standard-sized sheet, one closes the control mode of complete shut-down.Under the overall background of globalization energy crisis, particularly under the present situation of China's rapid economic development, energy demand seriously in short supply, this energy waste is worthless.
II feedback information mechanism is not enough, can't understand on-the-spot lighting apparatus practical operation situation.Because lighting apparatus practical operation situation and equipment completeness directly have influence on industrial production or social safety, after the operation, the staff need understand the actual operating state of on-the-spot lighting apparatus, be not only simple open and close and.
The III control unit is located at the single lighting apparatus of front end, is unfavorable for safeguarding and system extension.Control unit is located at mode on the front end high mast lighting equipment, in case increase a function, each lighting apparatus all needs to change, also be not easy to daily maintenance and management in addition, in addition, because each high mast lighting equipment respectively is main body, because of each body difference, the whole high mast lighting equipment in the place can not well be unified work.
Summary of the invention
Problem to be solved in the utility model is, overcome the deficiencies in the prior art, a kind of wireless remote control energy efficient lighting system is provided, divide control unit (every high mast lighting equipment is established one fen control unit) and far-end main control unit two parts to form by some front ends, front end divides the collection of control unit controls open and close lamp operation and lamp running status; The far-end main control unit is based on the computer operation platform, can carry out various operations, recording operation information, demonstration front end lighting apparatus running status, fault statistics, regularly ON/OFF lamp setting, Dynamic Packet neatly to the place ahead lighting apparatus by upper computer software, have network simultaneously and be subjected to right management function, easy to use, simple to operate, be a kind of powerful and safe and reliable intelligent lighting control system.
The utility model solves its technical problem and takes following technical scheme to realize:
A kind of wireless remote control energy efficient lighting system that provides according to the utility model, comprise that front end divides control unit and far-end main control unit, described front end divides the control unit to be made up of a minute control platform, high mast lighting device packets control section and sampler, divide the output of control platform to be connected with a plurality of grouping A.C. contactors in the high mast lighting device packets control section respectively, A.C. contactor connects the node lamp in the grouping respectively, node lamp in the grouping connects the sampler input respectively, and sampler output connects and divides the input of control platform; The far-end main control unit is made up of master station and host computer, and master station receives the serial data that host computer is sent, and after control circuit is handled, sends dtmf signal or fsk signal by the vehicle radio station in the master station; After master station receives signal, to the state information of host computer passback illuminating lamp, by Long-distance Control and the status poll of host computer realization to front end high mast lighting equipment.
It is to take following technical scheme further to realize that the utility model solves its technical problem:
Aforesaid branch control platform leaves the antennal interface 1 that connects the sucker antenna on its front panel, power supply indicator 2, codan lamp 3, emission indicator light 4 also are housed on the front panel.
Aforesaid branch control platform leaves power supply input jack 5 on its rear board, connect the control output plughole 6 of control line, control lamp switch and the sampling input jack 7 of connection sampler, and protector 8 also is housed on the rear board.
Aforesaid branch control platform, its control circuit is made up of power circuit, wireless communication line, cpu control circuit, drive circuit, state detection circuit and communication state indicating circuit, and the output of cpu control circuit connects the input of drive circuit, communication state indicating circuit respectively; The output of state detection circuit connects the input of cpu control circuit; The input of sampler connection status testing circuit; The two-way connection cpu control circuit of wireless communication line provides operating voltage by power circuit for the each several part circuit.
Aforesaid sampler, its sampler circuit is made up of current sampling circuit, voltage conversion circuit, fractional load working indicating, operation at full load indicating circuit and feedback circuit, current sampling circuit connects voltage conversion circuit, voltage conversion circuit output is coupling part loaded work piece indicating circuit, operation at full load indicating circuit and feedback circuit respectively, and feedback circuit output connects and divides the control platform.
Aforesaid master station is equipped with mains switch 9, volume knob 10, emergency button 11, node indicator light 12, lamp stand number demonstration charactron 13, emission indicator light 14, codan lamp 15, power supply indicator 16 on its front panel.
Aforesaid master station leaves antennal interface 17, power input interface 18 and RS232 serial data interface 19 on its rear board, be connected with the serial line interface of DB9 serial port connecting line with this serial data interface and host computer, and protector 20 also is housed on the rear board.
Aforesaid master station, its control circuit is made up of power circuit, upper machine communication circuit, cpu control circuit, wireless communication line, digital display circuit and sound instruction circuit, upper machine communication circuit, wireless communication line be two-way connection cpu control circuit respectively, cpu control circuit output connects digital display circuit, sound instruction circuit respectively, the two-way connection vehicle radio station of wireless communication line provides operating voltage by power circuit for the each several part circuit.
Aforesaid host computer is the microcomputer of band RS232 interface.
The utility model compared with prior art has significant advantage and beneficial effect:
1. the utility model is owing to divide into groups to the node illuminating lamp on the front end high mast lighting equipment, and dividing the control platform can be unit with the group by the grouping situation, and independent control is carried out in each grouping.Operation does not influence the node illuminating lamp of other groupings.Changed single high mast lighting equipment one of past and opened the control mode that standard-sized sheet one closes complete shut-down, the staff just can be according to the needs of real work like this, and opening section or all node illuminating lamp flexibly can effectively reach purpose of energy saving.
2. the utility model is after main control unit sends lamp control order, deliver to branch control unit through radio transmission apparatus, after dividing control unit resolves and fill order, gather the state information of lamp, through radio transmission apparatus state information is delivered to main control unit again, main control unit is presented on the host computer display window with graphic form after state information is resolved, and makes operating personnel be sitting in the operation conditions that just can clearly understand the front end lighting apparatus in the operating room.When node illuminating lamp spoilage arrived the fault point, system also can send chimes of doom, and the prompting staff after being convenient to break down, takes measures in time, thereby had realized the real-time demonstration of lamp state.
3. the utility model has also adopted the mode of the unified control of main control unit, divides the control unit only need get final product by command execution.This control architecture, improved the autgmentability of system greatly, when new function, only needed to do the function corresponding expansion and get final product at soft, the hardware of main control unit, changed traditional pattern of controlling at front end high mast lighting equipment, made system works also keep good consistency.Realized the far-end centralized control, front end is a performance element.
4. the utility model has also carried out dynamic reorganization, can be according to the distribution situation of field lighting equipment, in conjunction with the division of operating area, whole lighting apparatus reasonably are divided into a plurality of groupings, be its name, this zone is operated as an entity, be convenient to daily work.And block functions can repartition according to actual conditions, and this function has solved in the place high mast lighting equipment one effectively and opened standard-sized sheet, and one closes the energy waste present situation of complete shut-down.
5. the utlity model has multi-periodly, the timing open and close functions of many combinations are unit with the week, and the plan of switch lamp every day in the week is set, and can be divided into a plurality of periods again every day.Like this, in the reality, system will show to send automatically lamp control order according to plan, control front end lighting apparatus.
6. the utility model also has the electronic chart function, and by PC control software, the client can control the front end lighting apparatus by control mode: a. menu mode b. control panel mode c. electronic chart mode.Here only simply set forth the electronic chart control mode of vision intuitive, flexible operation.The user can be written into software with the bmp form with the plane graph that lighting apparatus distributes, on electronic chart, can be each lamp stand name or numbering, if desired certain number high mast lighting equipment is operated, only need on map, to click the lamp stand diagram, click the node number that to control then, the operational order confirmation window that is ejecting, after clicking affirmation, get final product complete operation, receive the state information of passback when main control unit after, the respective nodes illuminating lamp also can show different colours, represents the state of illuminating lamp.
7. the utility model is based on the computer operation platform, on this basis, system has increased network function, must be in the network with a computer as main control system, installed in the network be authorized other microcomputers of client software according to Permission Levels only to carry out the operation of associated authorization.Be convenient to the different actual conditions that section office understand headend equipment where necessary quickly and easily of controlling like this.
Embodiment of the present utility model is provided in detail by following examples and accompanying drawing thereof.
Description of drawings
Fig. 1 is that system of the present utility model forms schematic diagram;
Fig. 2 is that schematic diagram is formed in branch control of the present utility model unit;
Fig. 3 is a branch control platform front-panel structure schematic diagram of the present utility model;
Fig. 4 is a branch control platform rear panel structure schematic diagram of the present utility model;
Fig. 5 is a branch control platform schematic block circuit diagram of the present utility model;
Fig. 6 is branch control platform circuit theory diagrams of the present utility model;
Fig. 7 is the node lamp group control circuit schematic diagram of high mast lighting equipment of the present utility model;
Fig. 8 is a sampler schematic block circuit diagram of the present utility model;
Fig. 9 is sampler circuit theory diagrams of the present utility model;
Figure 10 is that main control unit of the present utility model is formed schematic diagram;
Figure 11 is a master station front-panel structure schematic diagram of the present utility model;
Figure 12 is a master station rear panel structure schematic diagram of the present utility model;
Figure 13 is a master station schematic block circuit diagram of the present utility model;
Figure 14 is master station circuit theory diagrams of the present utility model.
Embodiment
Below in conjunction with accompanying drawing and preferred embodiment, embodiment, structure, feature and effect thereof that foundation the utility model is provided, describe in detail as after.
See also Fig. 1~14, a kind of wireless remote control energy efficient lighting system, comprise that front end divides control unit and far-end main control unit (see figure 1), described front end divides the control unit to be made up of a minute control platform, high mast lighting device packets control section and sampler, divide the output of control platform to be connected with a plurality of grouping A.C. contactors in the high mast lighting device packets control section respectively, A.C. contactor connects the node lamp in the grouping respectively, node lamp in the grouping connects the sampler input respectively, and sampler output connects and divides control platform input (see figure 2).Current signal when sampler is worked by current transformer sampling lamp stand illuminating lamp is analyzed the operating state of determining the node illuminating lamp, and status signal is passed to branch control platform; After dividing the dtmf signal that transceiver in the control platform receives that master station sends, convert it to digital signal by a minute control platform, after the analysis order, the driving switch control module is carried out the operation of open and close lamp, detect the status signal of sampler passback, and status signal is returned to the master station in the main control unit.The far-end main control unit is formed (see figure 10) by master station and host computer, and master station receives the serial data that host computer is sent, and after control circuit is handled, sends dtmf signal or fsk signal by the vehicle radio station in the master station; After master station receives dtmf signal or fsk signal, to the state information of host computer passback illuminating lamp, by Long-distance Control and the status poll of host computer realization to front end high mast lighting equipment.
Divide the control platform, leave the antennal interface 1 that connects the sucker antenna on its front panel, power supply indicator 2, codan lamp 3, emission indicator light 4 (see figure 3)s also are housed on the front panel.Wherein:
1. antennal interface connects the sucker antenna.
2. power supply indicator, red power supply indicator is lighted behind power connection.
3. codan lamp, when the transceiver received signal in minute control platform, the blue indicator light of reception is lighted.
4. emission indicator light, when the transceiver transmit signal in minute control platform, the red led of emission is lighted.
Divide the control platform, leave power supply input jack 5 on its rear board, connect the control output plughole 6 of control line, control lamp switch and the sampling input jack 7 of connection sampler, protector 8 (see figure 4)s also are housed on the rear board.Wherein:
1. power supply is imported 220V 50Hz alternating current.
2. protector, with the protective tube of Φ 6 * 20 1A,
3. sampling input connects sampler, and the one, for sampler+12V power supply, the 2nd, the input sample analog signal.
4. control is exported, and connects the switch of control line, control lamp.
Divide the control platform, its control circuit is made up of power circuit, wireless communication line, cpu control circuit, drive circuit, state detection circuit and communication state indicating circuit, and the output of cpu control circuit connects the input of drive circuit, communication state indicating circuit respectively; The output of state detection circuit connects the input of cpu control circuit; The input of sampler connection status testing circuit; The two-way connection cpu control circuit of wireless communication line.Behind minute control platform electrifying startup, power circuit provides operating voltage for other each several part circuit, after receiving signal, communicating circuit carries out signal processing, send the signal after handling to CPU and analyze decoding, CPU drives the current signal accepting state that is in of communication state indicating circuit demonstration simultaneously, send the corresponding driving signal then, and the status signal of reading state testing circuit, send state information to communicating circuit, drive the communication state indicating circuit simultaneously and show the current signal passback transmit status that is in, communicating circuit is handled the back with signal and is sent with wireless.Divide the control platform can realize wireless receiving and two kinds of functions of wireless transmission.(seeing Fig. 5,6) wherein:
1. power circuit (area I): realizing the voltage transitions of AC220V-AC13V-DC12V-DC5V, is the entire circuit power supply.
2. wireless communication line (area I I): when minute control platform receives the dtmf signal that master station transmits, the dtmf signal that receives is converted to the Transistor-Transistor Logic level signal, sends the microprocessor of cpu control circuit to by the MT8880 chip; As CPU during to the master station return path signal, the Transistor-Transistor Logic level conversion of signals that the MT8880 chip sends CPU is that dtmf signal sends to master station.
3.CPU control circuit (area I II): after CPU receives signal, signal is analyzed decoding, obtain the entrained command information of signal and carry out corresponding actions.
4. drive circuit (area I V): after CPU receives the instruction of open and close lamp, send drive signal, operate by drive circuit control switch lamp.
5. state detection circuit (regional V): after a minute control platform sends the instruction of open and close lamp, by state detection circuit detect when the state of headlight whether normal.
The actual conditions that the utility model at first will distribute according to on-the-spot high mast lighting equipment dynamic line are divided into a plurality of groups with the node lamp of high mast lighting equipment, so that carry out the open and close operation neatly according to daily need, to reach purpose of energy saving.The node lamp group control circuit schematic diagram of high mast lighting equipment is seen Fig. 7.
The sampler circuit is made up of current sampling circuit, voltage conversion circuit, fractional load working indicating, operation at full load indicating circuit, feedback circuit, current sampling circuit connects voltage conversion circuit, voltage conversion circuit output is coupling part loaded work piece indicating circuit, operation at full load indicating circuit and feedback circuit respectively, and feedback circuit output connects and divides the control platform.Behind the operating current of current sampling circuit sampling lamp stand equipment, convert voltage signal to by voltage conversion circuit, fractional load working indicating, operation at full load indicating circuit send status signal to branch control platform (seeing Fig. 8,9) by feedback circuit simultaneously according to the work at present state of magnitude of voltage display lamp bar apparatus.Wherein:
1. sample circuit (area I): utilize the sample operating current of current lamp stand of current transformer.Index by changing current transformer is applicable to the lamp stand of various power.
2. voltage conversion circuit (area I I): on dead load, convert the ac current signal of sampling to ac voltage signal, behind rectifying and wave-filtering, become d. c. voltage signal.
3. fractional load working indicating (area I II): in order to prevent to influence work on the spot owing to the part lamp breaks down, actual conditions according to the scene, the small cup number of definite minimum lamp that can satisfy on-the-spot needs illumination, the small cup number of the lamp of operate as normal during greater than minimum small cup number system will not report an error.Just can adjust the failure rate of the lamp that can allow arbitrarily by the voltage ratio that changes resistance in the circuit.When failure rate did not surpass the failure rate of the lamp that can allow, red light emitting diodes extinguished, and blue LED is lighted, and the passback state is by normal process; When failure rate surpassed the failure rate of the lamp that can allow, red light emitting diodes, blue LED all extinguished, and the host computer place reports an error.
4. operation at full load indicating circuit (area I V): when red light emitting diodes, blue LED are all lighted, the lamp that does not break down, system is in the operation at full load state.
5. feedback circuit (regional VI): be converted to the status signal of lamp stand work after the processing of circuit with the current signal process of sampling, pass to branch control platform.
Master station is equipped with mains switch 9, volume knob 10, emergency button 11, node indicator light 12, lamp stand number demonstration charactron 13, emission indicator light 14, codan lamp 15, power supply indicator 16 (seeing Figure 11) on its front panel.Wherein:
1. mains switch: press this button, open master station.
2. volume knob: the transceiver in the master station is receiving or can send during the emission wireless signal too the sound of rattling away, and this button volume that turns clockwise increases, and is rotated counterclockwise this button volume and reduces.
3. emergency button: when host computer has fault, can on panel, directly turn on light and turn off the light.The green button-the button of turning on light; Red button-pass button; Yellow button-ACK button.
Concrete operations are as follows:
After pinning ACK button, open the master station power supply, at this moment the transceiver in the master station is in emission state, and the emission indicator light is lighted the DTMF sound of having an appointment simultaneously 5 seconds.When DTMF sound finishes, promptly launch and just can unclamp ACK button after indicator light no longer glimmers.
The operation of turning on light: press simultaneously and turn on light and ACK button.
The operation of turning off the light:, press simultaneously and turn off the light and ACK button.
4. four red luminotrons of node indicator light: ABCD show the node grouping number of operating high mast lighting equipment.
5. lamp stand number shows charactron: 2 bit digital display shows that master station is just in the lamp stand sequence number of remote control.
6. emission indicator light: during transceiver transmit signal in the master station, the red emission indicator light is lighted.
7. codan lamp: during transceiver received signal in the master station, blue codan lamp is lighted.
8. power supply indicator: after the master station mains switch closure, red power supply indicator is lighted.
Master station leaves antennal interface 17, power input interface 18 and RS232 serial data interface 19 on its rear board, protector 20 (seeing Figure 12) also is housed on the rear board.Wherein:
1. antennal interface connects omnidirectional antenna.
2. power input interface inserts the 220V alternating current,
3. fuse is the 5A fuse.
4.RS232 serial data interface is connected with the serial line interface of DB9 serial port connecting line with this serial data interface and host computer.
Master station, its control circuit is made up of power circuit, upper machine communication circuit, cpu control circuit, wireless communication line, digital display circuit and sound instruction circuit, upper machine communication circuit, wireless communication line be two-way connection cpu control circuit respectively, cpu control circuit output connects digital display circuit, sound instruction circuit, the two-way connection vehicle radio station of wireless communication line respectively.Behind the master station electrifying startup, power circuit provides operating voltage for other each several part circuit, after the instruction of receiving host computer, the upper machine communication circuit carries out conversion of signals, send cpu control circuit analysis decoding to, then corresponding signal is passed to wireless communication line, launch with infinite form after the signal processing, drive digital display circuit and sound instruction circuit simultaneously, show the action that current governor circuit is carried out with number demonstration and two kinds of forms of sound.After wireless communication line receives the information that branch control platform transmits, carry out signal processing and pass to cpu control circuit analysis decoding then, CPU passes to the upper machine communication circuit with decoded signal and carries out conversion of signals, passes to host computer then.Master station can be realized wireless receiving and two kinds of functions of wireless transmission (seeing Figure 13,14).Wherein:
1. power circuit (area I): realizing the voltage transitions of AC220V-AC13V-DC12V-DC5V, is the entire circuit power supply.
2. upper machine communication circuit (area I I): when master station receives the RS232 signal that host computer transmits, be the Transistor-Transistor Logic level signal with the RS232 conversion of signals that receives, send control circuit CPU to by the TC232 chip.As CPU during to the host computer return path signal, the TC232 chip sends to host computer with the Transistor-Transistor Logic level conversion of signals that CPU sends for the RS232 signal.
3.CPU control circuit (area I II): after CPU receives signal, signal is analyzed decoding, obtain the entrained command information of signal and carry out corresponding actions, carry out signaling simultaneously and transmit, control digital demonstration etc.
4. wireless communication line one (area I V): the signal that is applied in transmission is in the system of dtmf signal.Utilize the MT8880 chip that the Transistor-Transistor Logic level conversion of signals that CPU sends is dtmf signal, send transceiver to and send; Maybe the dtmf signal that receives is converted to the Transistor-Transistor Logic level signal and sends CPU to.
5. wireless communication line two (regional V): the signal that is applied in transmission is in the system of fsk signal.Utilize the MSM7512B chip that the Transistor-Transistor Logic level conversion of signals that CPU sends is fsk signal, send transceiver to and send with wireless; Also the fsk signal that receives can be converted to the Transistor-Transistor Logic level signal and send CPU to.
6. digital display circuit (regional VI): charactron shows the lamp stand number of current control, and light-emitting diode is indicated the group number in the lamp stand of current control, the sending and receiving state of signal.
7. sound instruction circuit (regional VII): with sending and receiving to signal show with the form of sound, judge by sound whether current communication state normal.
Host computer is the microcomputer of band RS232 interface.Only needing wireless remote control illuminator Control Software is installed is may command front end lighting apparatus.

Claims (9)

1, a kind of wireless remote control energy efficient lighting system, comprise that front end divides control unit and far-end main control unit, it is characterized in that: described front end divides the control unit to be made up of a minute control platform, high mast lighting device packets control section and sampler, divide the output of control platform to be connected with a plurality of grouping A.C. contactors in the high mast lighting device packets control section respectively, A.C. contactor connects the node lamp in the grouping respectively, node lamp in the grouping connects the sampler input respectively, and sampler output connects and divides the input of control platform; The far-end main control unit is made up of master station and host computer, and master station receives the serial data that host computer is sent, and after control circuit is handled, sends dtmf signal or fsk signal by the vehicle radio station in the master station; After master station receives signal, to the state information of host computer passback illuminating lamp, by Long-distance Control and the status poll of host computer realization to front end high mast lighting equipment.
2, wireless remote control energy efficient lighting system according to claim 1, it is characterized in that: described branch control platform, leave the antennal interface (1) that connects the sucker antenna on its front panel, power supply indicator (2), codan lamp (3), emission indicator light (4) also are housed on the front panel.
3, wireless remote control energy efficient lighting system according to claim 1, it is characterized in that: described branch control platform, leave power supply input jack (5) on its rear board, connect the control output plughole (6) of control line, control lamp switch and the sampling input jack (7) of connection sampler, protector (8) also is housed on the rear board.
4, wireless remote control energy efficient lighting system according to claim 1, it is characterized in that: described branch control platform, its control circuit is made up of power circuit, wireless communication line, cpu control circuit, drive circuit, state detection circuit and communication state indicating circuit, and the output of cpu control circuit connects the input of drive circuit, communication state indicating circuit respectively; The output of state detection circuit connects the input of cpu control circuit; The input of sampler connection status testing circuit; The two-way connection cpu control circuit of wireless communication line provides operating voltage by power circuit for the each several part circuit.
5, wireless remote control energy efficient lighting system according to claim 1, it is characterized in that: described sampler, its sampler circuit is made up of current sampling circuit, voltage conversion circuit, fractional load working indicating, operation at full load indicating circuit and feedback circuit, current sampling circuit connects voltage conversion circuit, voltage conversion circuit output is coupling part loaded work piece indicating circuit, operation at full load indicating circuit and feedback circuit respectively, and feedback circuit output connects and divides the control platform.
6, wireless remote control energy efficient lighting system according to claim 1, it is characterized in that: described master station, be equipped with mains switch (9), volume knob (10), emergency button (11), node indicator light (12), lamp stand number demonstration charactron (13), emission indicator light (14), codan lamp (15), power supply indicator (16) on its front panel.
7, wireless remote control energy efficient lighting system according to claim 1, it is characterized in that: described master station, leave antennal interface (17), power input interface (18) and RS232 serial data interface (19) on its rear board, be connected with the serial line interface of DB9 serial port connecting line, protector (20) also is housed on the rear board this serial data interface and host computer.
8, wireless remote control energy efficient lighting system according to claim 1, it is characterized in that: described master station, its control circuit is made up of power circuit, upper machine communication circuit, cpu control circuit, wireless communication line, digital display circuit and sound instruction circuit, upper machine communication circuit, wireless communication line be two-way connection cpu control circuit respectively, cpu control circuit output connects digital display circuit, sound instruction circuit respectively, the two-way connection vehicle radio station of wireless communication line provides operating voltage by power circuit for the each several part circuit.
9, wireless remote control energy efficient lighting system according to claim 1 is characterized in that: described host computer is the microcomputer of band RS232 interface.
CNU2008201430721U 2008-11-14 2008-11-14 Wireless remote control energy-saving illumination system Expired - Fee Related CN201294658Y (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102159011A (en) * 2011-04-02 2011-08-17 清华大学 Method for remotely and wirelessly controlling illumination end
CN102970793A (en) * 2012-11-07 2013-03-13 深圳华智测控技术有限公司 Street lamp circuit control and acquisition system
CN104335448A (en) * 2012-06-07 2015-02-04 皇家飞利浦有限公司 A system and method for emergency lighting
CN105407611A (en) * 2015-12-15 2016-03-16 厦门市智联信通物联网科技有限公司 Remote intelligent control system for light-compensating lamps
CN110167241A (en) * 2019-05-29 2019-08-23 北京工业大学 A kind of data transfer control method and system of the illumination of interior wisdom
CN110618642A (en) * 2019-10-25 2019-12-27 蚌埠凯盛工程技术有限公司 Intelligent edge roller system control method and device

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102159011A (en) * 2011-04-02 2011-08-17 清华大学 Method for remotely and wirelessly controlling illumination end
CN102159011B (en) * 2011-04-02 2013-07-17 清华大学 Method for remotely and wirelessly controlling illumination end
CN104335448A (en) * 2012-06-07 2015-02-04 皇家飞利浦有限公司 A system and method for emergency lighting
CN104335448B (en) * 2012-06-07 2018-01-16 飞利浦灯具控股公司 System and method for emergency lighting
CN102970793A (en) * 2012-11-07 2013-03-13 深圳华智测控技术有限公司 Street lamp circuit control and acquisition system
CN102970793B (en) * 2012-11-07 2016-05-25 深圳华智测控技术有限公司 street lamp loop control and acquisition system
CN105407611A (en) * 2015-12-15 2016-03-16 厦门市智联信通物联网科技有限公司 Remote intelligent control system for light-compensating lamps
CN110167241A (en) * 2019-05-29 2019-08-23 北京工业大学 A kind of data transfer control method and system of the illumination of interior wisdom
CN110167241B (en) * 2019-05-29 2022-07-05 北京工业大学 Data transmission control method and system for indoor intelligent lighting
CN110618642A (en) * 2019-10-25 2019-12-27 蚌埠凯盛工程技术有限公司 Intelligent edge roller system control method and device
CN110618642B (en) * 2019-10-25 2023-02-28 蚌埠凯盛工程技术有限公司 Intelligent edge roller system control method and device

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