CN105188205A - Intelligent monitor for high-pole lamp - Google Patents

Intelligent monitor for high-pole lamp Download PDF

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Publication number
CN105188205A
CN105188205A CN201510541940.6A CN201510541940A CN105188205A CN 105188205 A CN105188205 A CN 105188205A CN 201510541940 A CN201510541940 A CN 201510541940A CN 105188205 A CN105188205 A CN 105188205A
Authority
CN
China
Prior art keywords
pole lamp
light source
lamp light
input unit
mode
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN201510541940.6A
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Chinese (zh)
Inventor
高国东
王玮
彭振经
李静
李宝明
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
BEIJING LIBOMING TECHNOLOGY DEVELOPMENT Co Ltd
Original Assignee
BEIJING LIBOMING TECHNOLOGY DEVELOPMENT Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by BEIJING LIBOMING TECHNOLOGY DEVELOPMENT Co Ltd filed Critical BEIJING LIBOMING TECHNOLOGY DEVELOPMENT Co Ltd
Priority to CN201510541940.6A priority Critical patent/CN105188205A/en
Publication of CN105188205A publication Critical patent/CN105188205A/en
Pending legal-status Critical Current

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Classifications

    • 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

Abstract

The invention discloses an intelligent monitor for a high-pole lamp. The intelligent monitor comprises a first switching feedback input unit, a second switching feedback input unit, an analogue input unit, an operation keyboard, a central processing unit (CPU), a display and a switching output unit, wherein the first switching feedback input unit, the second switching feedback input unit, the analogue input unit, the switching output unit, the display and the operation keyboard are all electrically connected with the CPU; and input ends of the switching feedback input units and the analogue input unit and an output end of the switching output unit are electrically connected with a high-pole lamp light source. According to the intelligent monitor, the high-pole lamp can be turned on and turned off according to the turn-on time and the turn-off time, which are set by a user according to the requirements, of the high-pole lamp light source; the sunrise time and the sunset time of the place at which the high-pole lamp is located can be automatically calculated according to the longitude and latitude of the place at which the high-pole lamp is located; and the high-pole lamp is accurately controlled to be turned on and turned off according to the sunrise time and the sunset time, so that energy conservation is achieved.

Description

A kind of intelligent monitor for High-Pole Lamp
Technical field
The present invention relates to the control technology field of High-Pole Lamp illumination.More specifically, a kind of intelligent monitor for High-Pole Lamp is related to.
Background technology
In prior art, the general controller for road lamp that adopts controls High-Pole Lamp illumination.The function of controller for road lamp is for exporting two path control signal, and wherein a road is for controlling lamp whole night, and another road is for controlling evening lamp.The startup of lamp and closedown whole night, needs first by the longitude of High-Pole Lamp infield and latitude input controller for road lamp, then by controller for road lamp according to the longitude of infield and latitude automatically calculate infield sunset time and at sunrise between.When sunset time then, controller for road lamp can control whole night lamp output point close, light lamp whole night; When the sunrise time then, controller for road lamp can disconnect lamp output point whole night, extinguishes lamp whole night.Similarly, the lighting time of evening lamp is sunset time, and its fall time is set as required by user.
The output point of existing controller for road lamp only has two-way, can control lighting and extinguishing of street lamp, thus meet the needs of the Street lamps control of street lighting.But the quantity of light source be installed on the High-Pole Lamp in the places such as harbour, harbour, square reaches 18, and the power of each light source is 1KW.In brief, the quantity of light source of High-Pole Lamp is many, and light source power is large, only provides two-way to control can not meet energy-conservation requirement, and can not meet the requirement of intellectuality, centralization control.
Therefore, need to provide a kind of intelligent monitor for High-Pole Lamp.
Summary of the invention
One object of the present invention is to provide a kind of intelligent monitor for High-Pole Lamp.
For achieving the above object, the present invention adopts following technical proposals:
For an intelligent monitor for High-Pole Lamp, this intelligent monitor comprises:
First switching value feed back input unit, for detecting the operating state of High-Pole Lamp light source in real time and it being sent to CPU in real time;
Second switch amount feed back input unit, for detecting the mode of operation of High-Pole Lamp light source in real time and it being sent to CPU in real time;
Analog input unit, for detecting the operating current of High-Pole Lamp light source in real time and it being sent to CPU in real time;
Operation keyboard, for inputting CPU for user by the opening time of the High-Pole Lamp light source set as required and shut-in time;
CPU, for respectively by the operating state of the High-Pole Lamp light source from the first switching value feed back input unit, from the mode of operation of the High-Pole Lamp light source of second switch amount feed back input unit and be sent to display from the operating current of the High-Pole Lamp light source of analog input unit; Also send open command signal or cut-off command for opening time of High-Pole Lamp light source of inputting according to user and shut-in time to switch amount output unit;
Display, for showing the operating state of High-Pole Lamp light source, mode of operation and operating current; And
Switch amount output unit, to open from the open command signal of CPU or cut-off command for responding or to close High-Pole Lamp light source;
First switching value feed back input unit, second switch amount feed back input unit, analog input unit, switch amount output unit, display and operation keyboard are all electrically connected with CPU; The input of switching value feed back input unit and analog input unit and the output of switch amount output unit are all electrically connected with High-Pole Lamp light source.
Preferably, described operation keyboard is also for inputting described CPU for user by the longitude of High-Pole Lamp site and latitude; Described CPU also for calculate according to the longitude of High-Pole Lamp site and latitude High-Pole Lamp site every day at sunrise between and sunset time, then according to High-Pole Lamp site every day at sunrise between and sunset time send open command signal or cut-off command to described switch amount output unit.
Further preferably, the operating state of High-Pole Lamp light source comprises opening and closed condition.
Further preferably, the mode of operation of High-Pole Lamp light source comprises local mode and remote mode.
Further preferably, when the mode of operation of High-Pole Lamp light source is remote mode, described intelligent monitor also comprises 485 remote communication interface and remote user terminals that are electrically connected with described CPU successively.
Further preferably, described 485 remote communication interface are for realizing the telecommunication between described remote user terminals and described CPU; Described CPU is also for sending the operating state of High-Pole Lamp light source, mode of operation and operating current by described 485 remote communication interface to described remote user terminals when the mode of operation of High-Pole Lamp light source is remote mode; Described remote user terminals is used for the opening time from described 485 remote communication interface to described CPU1 and the shut-in time that are sent High-Pole Lamp light source when the mode of operation of High-Pole Lamp light source is remote mode by.
Beneficial effect of the present invention is as follows:
(1) described intelligent monitor of the present invention opening time of High-Pole Lamp light source that can set as required according to user and shut-in time open and close High-Pole Lamp, user can control the opening and closing of High-Pole Lamp light source according to actual needs flexibly, and then realizes the saving of the energy.
(2) described intelligent monitor of the present invention can according to the longitude of High-Pole Lamp site and latitude automatically calculate High-Pole Lamp site at sunrise between and sunset time, then according between at sunrise and sunset time accurately control the opening and closing of High-Pole Lamp, and then realize the saving of the energy.
(3) described intelligent monitor of the present invention can realize the Long-distance Control of the opening and closing to High-Pole Lamp, under remote mode, the telecommunication that described intelligent monitor can realize between remote user terminals and CPU by 485 remote communication interface, remote user terminals sends opening time and the shut-in time of High-Pole Lamp light source to described CPU by described 485 remote communication interface, remote user terminals 9 can opening and closing time of light source above the every base High-Pole Lamp of free setting, the opening time of the High-Pole Lamp light source that following CPU inputs according to user and shut-in time send open command signal or cut-off command to switch amount output unit, then switch amount output unit response is opened from the open command signal of CPU or cut-off command or is closed High-Pole Lamp light source.
Accompanying drawing explanation
Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in further detail.
Fig. 1 illustrates the schematic diagram of the intelligent monitor for High-Pole Lamp that the embodiment of the present invention provides.
Embodiment
In order to be illustrated more clearly in the present invention, below in conjunction with preferred embodiments and drawings, the present invention is described further.Parts similar in accompanying drawing represent with identical Reference numeral.It will be appreciated by those skilled in the art that specifically described content is illustrative and nonrestrictive, should not limit the scope of the invention with this below.
As shown in Figure 1, the intelligent monitor for High-Pole Lamp that the present embodiment provides comprises CPU1, the first switching value feed back input unit 2, second switch amount feed back input unit 3, analog input unit 4, switch amount output unit 5, display 6 and operation keyboard 7.
First switching value feed back input unit 2, second switch amount feed back input unit 3, analog input unit 4, switch amount output unit 5, display 6 and operation keyboard 7 are all electrically connected with CPU1.The input of switching value feed back input unit 2 and analog input unit 3 and the output of switch amount output unit 5 are all electrically connected with High-Pole Lamp light source.
First switching value feed back input unit 2 is for detecting the operating state of High-Pole Lamp light source in real time and it being sent to CPU1 in real time.The operating state of High-Pole Lamp light source comprises opening and closed condition.
Second switch amount feed back input unit 3 is for detecting the mode of operation of High-Pole Lamp light source in real time and it being sent to CPU1 in real time.The mode of operation of High-Pole Lamp light source comprises local mode and remote mode.
Analog input unit 4 is for detecting the operating current of High-Pole Lamp light source in real time and it being sent to CPU1 in real time.
CPU1 be used for respectively by the operating state of the High-Pole Lamp light source from the first switching value feed back input unit 2, from the mode of operation of the High-Pole Lamp light source of second switch amount feed back input unit 3 and be sent to display 6 from the operating current of the High-Pole Lamp light source of analog input unit 4.
Display 6 is for showing the operating state of High-Pole Lamp light source, mode of operation and operating current.
Operation keyboard 7 is for inputting CPU1 for user by the opening time of the High-Pole Lamp light source set as required and shut-in time.
CPU1 also sends open command signal or cut-off command for opening time of High-Pole Lamp light source of inputting according to user and shut-in time to switch amount output unit 5.
Switch amount output unit 5 to be opened from the open command signal of CPU1 or cut-off command for responding or to close High-Pole Lamp light source.
In a kind of preferred implementation of the present embodiment, operation keyboard 7 is also for inputting CPU1 for user by the longitude of High-Pole Lamp site and latitude.In this embodiment, CPU1 also for calculate according to the longitude of High-Pole Lamp site and latitude High-Pole Lamp site every day at sunrise between and sunset time, then according to High-Pole Lamp site every day at sunrise between and sunset time send open command signal or cut-off command to switch amount output unit 5; Switch amount output unit 5 to be opened from the open command signal of CPU1 or cut-off command for responding or to close High-Pole Lamp light source.
In the another kind of preferred implementation of the present embodiment, described intelligent monitor also comprises 485 remote communication interface 8 and remote user terminals 9 that are electrically connected with CPU1 successively.In this embodiment, 485 remote communication interface 8 are for realizing the telecommunication between remote user terminals 9 and CPU1; CPU1 is used for sending the operating state of High-Pole Lamp light source, mode of operation and operating current by 485 remote communication interface 7 to remote user terminals 9 when the mode of operation of High-Pole Lamp light source is remote mode; Remote user terminals 9 is for sending opening time and the shut-in time of High-Pole Lamp light source to CPU1 by 485 remote communication interface 7 when the mode of operation of High-Pole Lamp light source is remote mode; CPU1 also sends open command signal or cut-off command for opening time of High-Pole Lamp light source of inputting according to user and shut-in time to switch amount output unit 5; Switch amount output unit 5 to be opened from the open command signal of CPU1 or cut-off command for responding or to close High-Pole Lamp light source.
The intelligent monitor of the present embodiment can realize energy savings.Such as 1 base High-Pole Lamp is containing 18 light sources, each light source power is 1KW because existing clock controller only have 2 tunnels export control, so light source be grouped into 9 lamp and 9 evening lamps whole night, lamp is set as late 7 extremely early 7 work whole night, and the lamp operating time is 12 hours whole night; Evening lamp is set as late 7 extremely 12 work in evening, and the evening lamp operating time is 5 hours.The power consumption that can be calculated this base High-Pole Lamp every day is 153 kilowatt hours.
Intelligent monitor is adopted to control, intelligent monitor controls because can realize at most 6 tunnels, because field personnel is not in work after midnight, the quantity of light source of illumination can be reduced in the second half of the night, 18 light sources are divided into 6 groups of controls, often organize 3 light sources, therefore can set and adopt 3 light illuminations after midnight.The power consumption that can be calculated this base High-Pole Lamp every day is 111 kilowatt hours.
More than just calculate according to simple account form, every base height bar can save 42 kilowatt hour electric energy every day, and install quantity 40 base by the High-Pole Lamp in a berth at harbour and calculate, every day is by electrical energy saving 1720 kilowatt hour.
In fact because intelligent monitor has remote communicating function, operator can control each road illumination in every base High-Pole Lamp accurately in control room, so the light source that operator can light according to field condition setting needs, when a certain region does not have personnel in work, operator can close or reduce the quantity of light source of this area illumination at any time, and the energy quantity of saving therefrom also will produce very large very important economic benefit.
Clock controller can only carry out work according to the parameter set, when light source produces fault or operation irregularity time, operator can not to go forward side by side row relax by Timeliness coverage.And intelligent monitor is specially that high bar controls and the invention done, powerful and perfect, operator can be realized in control room, just can allow the working condition understanding on-the-spot High-Pole Lamp at any time.
Obviously; the above embodiment of the present invention is only for example of the present invention is clearly described; and be not the restriction to embodiments of the present invention; for those of ordinary skill in the field; can also make other changes in different forms on the basis of the above description; here cannot give exhaustive to all execution modes, every belong to technical scheme of the present invention the apparent change of extending out or variation be still in the row of protection scope of the present invention.

Claims (6)

1. for an intelligent monitor for High-Pole Lamp, it is characterized in that, this intelligent monitor comprises:
First switching value feed back input unit, for detecting the operating state of High-Pole Lamp light source in real time and it being sent to CPU in real time;
Second switch amount feed back input unit, for detecting the mode of operation of High-Pole Lamp light source in real time and it being sent to CPU in real time;
Analog input unit, for detecting the operating current of High-Pole Lamp light source in real time and it being sent to CPU in real time;
Operation keyboard, for inputting CPU for user by the opening time of the High-Pole Lamp light source set as required and shut-in time;
CPU, for respectively by the operating state of the High-Pole Lamp light source from the first switching value feed back input unit, from the mode of operation of the High-Pole Lamp light source of second switch amount feed back input unit and be sent to display from the operating current of the High-Pole Lamp light source of analog input unit; Also send open command signal or cut-off command for opening time of High-Pole Lamp light source of inputting according to user and shut-in time to switch amount output unit;
Display, for showing the operating state of High-Pole Lamp light source, mode of operation and operating current; And
Switch amount output unit, to open from the open command signal of CPU or cut-off command for responding or to close High-Pole Lamp light source;
First switching value feed back input unit, second switch amount feed back input unit, analog input unit, switch amount output unit, display and operation keyboard are all electrically connected with CPU; The input of switching value feed back input unit and analog input unit and the output of switch amount output unit are all electrically connected with High-Pole Lamp light source.
2. the intelligent monitor for High-Pole Lamp according to claim 1, is characterized in that, described operation keyboard is also for inputting described CPU for user by the longitude of High-Pole Lamp site and latitude; Described CPU also for calculate according to the longitude of High-Pole Lamp site and latitude High-Pole Lamp site every day at sunrise between and sunset time, then according to High-Pole Lamp site every day at sunrise between and sunset time send open command signal or cut-off command to described switch amount output unit.
3. the intelligent monitor for High-Pole Lamp according to claim 1 and 2, is characterized in that, the operating state of High-Pole Lamp light source comprises opening and closed condition.
4. the intelligent monitor for High-Pole Lamp according to claim 1 and 2, is characterized in that, the mode of operation of High-Pole Lamp light source comprises local mode and remote mode.
5. the intelligent monitor for High-Pole Lamp according to claim 4, it is characterized in that, when the mode of operation of High-Pole Lamp light source is remote mode, described intelligent monitor also comprises 485 remote communication interface and remote user terminals that are electrically connected with described CPU successively.
6. the intelligent monitor for High-Pole Lamp according to claim 5, is characterized in that, described 485 remote communication interface are for realizing the telecommunication between described remote user terminals and described CPU; Described CPU is also for sending the operating state of High-Pole Lamp light source, mode of operation and operating current by described 485 remote communication interface to described remote user terminals when the mode of operation of High-Pole Lamp light source is remote mode; Described remote user terminals is used for the opening time from described 485 remote communication interface to described CPU1 and the shut-in time that are sent High-Pole Lamp light source when the mode of operation of High-Pole Lamp light source is remote mode by.
CN201510541940.6A 2015-08-28 2015-08-28 Intelligent monitor for high-pole lamp Pending CN105188205A (en)

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Application publication date: 20151223