CN206160025U - Portable light energy street lamp head of integral type dual system - Google Patents
Portable light energy street lamp head of integral type dual system Download PDFInfo
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- CN206160025U CN206160025U CN201621123877.0U CN201621123877U CN206160025U CN 206160025 U CN206160025 U CN 206160025U CN 201621123877 U CN201621123877 U CN 201621123877U CN 206160025 U CN206160025 U CN 206160025U
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- battery
- dual system
- integral type
- circuit
- type dual
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/30—Semiconductor lamps, e.g. solid state lamps [SSL] light emitting diodes [LED] or organic LED [OLED]
-
- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/72—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps in street lighting
Abstract
The utility model provides a portable light energy street lamp head of integral type dual system relates to the illumination field, including base plate, LED banks spare, battery and PCB board, be equipped with main solar cell panel and vice solar cell panel on the base plate, the battery includes main battery and vice battery, the PCB board includes solar energy maximum power point tracking control circuit, lithium battery protection circuit, battery intelligent allocation circuit, dual system microprocessor and LED drive module. The utility model discloses a portable light energy street lamp head of integral type effectively improves the duration and the illumination brightness of battery, the life of extension battery.
Description
Technical field
The utility model is related to lighting field, especially the removable optical energy street light head of integral type dual system.
Background technology
With the transformation of the fast-developing and rural infrastructure of the urbanization of China, traditional illuminating street lamp cannot
Meet the fast development of road.Also, go from bad to worse in environment, countries in the world pass all under the main trend of development clean energy resource
System high energy consumption, consume non-renewable energy resources, need to pull power line, high use cost, consume a large amount of labours'
The industry of street lamp and its street lamp, will be with the rapid growth of national economy, outstanding day by day, the supply of electric power of energy supply and demand contradiction
Gradually short situation, constantly mobile road lighting demand, day by day deficient electric power resource etc. are gradually backed out road lighting
The arena of history, the thing followed is that the application of solar energy will rapidly develop.
But existing solar illumination apparatus, it is one piece of solar panels and is equipped with a solar storage battery, due to too
The finite capacity of positive energy battery, and it is affected by environment, need the brightness for controlling lighting device so as to there can be enough sending out
The light time, if run into it is continuous it is overcast and rainy if the demand of illumination can not be provided.And during opto-electronic conversion, such as cloudy,
During overcast and rainy or fine day, voltage and current is unstable, and cannot match input with the battery of voltage stabilization, and this is not only again directly
Connect cause circuit easily produce failure, electric power storage is not enough, it is overcast and rainy illumination work cannot be normally provided, but also accelerate battery old
Change, shorten service lifetime of accumulator.
Utility model content
In order to solve above-mentioned the deficiencies in the prior art, the utility model provides integral type dual system removable luminous energy
Street lamp cap, effectively improves the endurance and brightness of illumination of battery, extends the service life of battery.
The utility model specifically adopts the following technical scheme that realization:
Integral type dual system may move optical energy street light head, including substrate, LED lamp component, battery and pcb board, its feature
It is that the substrate is provided with main solar panel and secondary solar panel, the battery includes main storage battery and pair
Battery, the pcb board includes solar maximum power point follow-up control circuit, lithium battery protection circuit, battery intelligent distribution
Circuit, dual system microprocessor and LED drive module, the solar panel and secondary solar panel and the solar energy
MPPT maximum power point tracking control circuit connects, and the battery intelligent distributor circuit is tracked respectively with the solar maximum power point
The connection of control circuit, lithium battery protection circuit and dual system microprocessor, the lithium battery protection circuit and the main storage battery
With secondary battery connection, the dual system microprocessor is connected with the LED drive module, the LED drive module with it is described
LED lamp component connects.
Preferably, the battery intelligent distributor circuit includes main storage battery charge management circuit, secondary battery charging valve
Reason circuit, main storage battery power-supplying circuit and secondary battery power-supplying circuit.
Preferably, the dual system microprocessor is also associated with strong and weak light identification sensor.
Preferably, the substrate, LED lamp component, battery and pcb board are close-coupled in frame.
Preferably, the area ratio of the main solar panel and secondary solar panel is 7:3.
Preferably, the area ratio of the main solar panel and secondary solar panel is 8:2.
Preferably, the area ratio of the main solar panel and secondary solar panel is 6:4.
Preferably, being provided with lamp stand convergence piece on the frame.
Preferably, being fixed with least one LED lamp component in the frame.
The integral type dual system that the utility model is provided may move optical energy street light head, and its advantage is:By equal face
Long-pending solar panel is divided into small one and large one two pieces of independent solar panels, two pieces of independent solar panel difference
Power for two group storage batteries, the cycle charge discharge of two group storage batteries is controlled by battery intelligent distributor circuit and dual system microprocessor
Electricity, so battery pack service life is greatly improved, effectively improves the endurance and brightness of illumination of battery, resists overcast and rainy
Number is greatly promoted, even if in the winter time or continuous overcast and rainy, battery also will not power shortage operation, reduce it is deep fill it is deep put number of times, extend
The service life of battery.
Description of the drawings
Fig. 1 is the front view of the removable street lamp cap of the utility model;
Fig. 2 is the rearview of the removable street lamp cap of the utility model;
Fig. 3 is the left view of the removable street lamp cap of the utility model;
Fig. 4 is schematic block circuit diagram of the present utility model;
Fig. 5 is the circuit diagram of solar maximum power point follow-up control circuit;
Fig. 6 is the circuit diagram of lithium battery protection circuit;
Fig. 7 is the circuit diagram of battery intelligent distributor circuit;
Fig. 8 is the connection circuit diagram of dual system microprocessor and LED drive module;
Fig. 9 is the workflow diagram of the utility model battery charging and discharging.
In figure, 1- substrates;2-LED lamp components;3- frames;The main solar panels of 4-;5- pair solar panels;6- pacifies
Mounted box;7- lamp stand convergence pieces.
Specific embodiment
To further illustrate each embodiment, the utility model is provided with accompanying drawing.These accompanying drawings are in the utility model is disclosed
A part for appearance, it is mainly to illustrate embodiment, and the running that the associated description of specification can be coordinated to explain embodiment is former
Reason.Coordinate and refer to these contents, those of ordinary skill in the art will be understood that other possible embodiments and this practicality are new
The advantage of type.Component in figure is not necessarily to scale, and similar element numbers are conventionally used to indicate similar component.
The utility model is further illustrated in conjunction with the drawings and specific embodiments.
As Figure 1-3, the removable optical energy street light head of integral type dual system that the present embodiment is proposed, including substrate 1, LED
Lamp component 2, battery, pcb board and frame 3, substrate 1 is provided with main solar panel 4 and secondary solar panel 5, this reality
The area ratio for applying main solar panel 4 and secondary solar panel 5 in example is 7:3, LED lamp component 2 is provided with three groups, according to
Be actually needed also can be set to 9 by area ratio:1 or 8:2 or 6:4, LED lamp component 2 be set to one group or two groups or four groups or
It is more multigroup, will not be described here.Substrate and LED lamp component 2 are close-coupled on frame 3, and LED lamp component 2 is installed
When with frame 3 be in certain angle of inclination, the drippage and light that can facilitate rainwater is projected to road surface, and battery and pcb board are pacified
It is mounted in frame 3, and is sealed by mounting box 6, lamp stand convergence piece 7 is provided with frame 3, lamp stand is fixedly connected with frame.
As shown in figure 4, pcb board includes solar maximum power point follow-up control circuit, lithium battery protection circuit, battery intelligence
Energy distributor circuit, dual system microprocessor and LED drive module, solar panel and secondary solar panel are with solar energy most
The connection of high-power follow-up control circuit, battery intelligent distributor circuit respectively with solar maximum power point follow-up control circuit,
Lithium battery protection circuit and dual system microprocessor connect, and lithium battery protection circuit is connected with main storage battery and secondary battery, double
Systematic microprocessor is connected with LED drive module, and LED drive module is connected with LED lamp component, and dual system microprocessor is also connected with
There is strong and weak light identification sensor.
As shown in figure 5, solar maximum power point follow-up control circuit in the present embodiment, can be carried out to 5A polymorphic types battery
Charge Management, with solar cell MPPT maximum power point tracking function, is adapted to single-unit or multisection lithium battery or LiFePO4 electricity
The Charge Management in pond.For the battery of deep discharge, when cell voltage less than set constant-voltage charge voltage 66.7%,
15% pair of battery of the constant-current charge electric current set by this circuit carries out trickle charge.In constant voltage charging phase, charging current by
It is decrescence little, when charging current is reduced to the 9.5% of set constant-current charge electric current, into charging done state;When input electricity
When source power down or input voltage are less than cell voltage, automatically into the sleep pattern of low-power consumption.Input low-voltage can also be carried out
Latch, battery temperature monitoring, battery-end overvoltage protection and charged state instruction etc..This circuit is than conventional pwm pulse charging side
Formula efficiency is higher by 17%~30% or so.
As shown in fig. 6, lithium battery protection circuit in the present embodiment, can control following five kinds of states of battery:Usual state,
Overcharge condition, over-discharge state, resting state, overcurrent condition.
1st, usual state
Main storage battery and secondary battery voltage are in overdischarge detection voltage VDLnWith overcharge detection voltage VCUnBetween, than putting
The current value of electric current is low, and (VINI terminal voltages are than discharge over-current detection voltage VIOV1、VIOV2It is low, and VMP terminal voltages ratio
VIOV3It is high) in the case of, to charge and be changed into ON with FET with FET and electric discharge.
2nd, overcharge condition
Voltage ratio overcharge detection voltage V of wherein certain battery of main storage battery and secondary batteryCUnHeight, this state
It is maintained at tCUIn the case of above, COP terminals are changed into high impedance.COP terminals are EB by outer meeting resistance pull-up+Reason, fill
Electricity FET is changed into OFF, and stops charging.This state is referred to as overcharge condition, and overcharge condition is meeting following two conditions
In one kind be released from:A, whole cell voltages release voltage V in overchargeCLnWhen following;B, whole cell voltages exist
Overcharge detection voltage VCUnHereinafter, and VMP terminal voltages are in 39/40XVDDWhen following, (load is connected, and is used by charging
The body diode of FET starts electric discharge).
3rd, over-discharge state
Voltage ratio overdischarge detection voltage V of wherein certain battery of main storage battery and secondary batteryDLnIt is low, this state
It is maintained at tDLIn the case of above, the voltage of DOP terminals is changed into VDDLevel, to discharge and be changed into OFF with FET, and stops charging, this
The state of kind is referred to as over-discharge state, and after being changed into over-discharge state, chip S-8254 transfers are resting state.
4th, resting state
It is changed into over-discharge state, stops electric discharge, because the RVMS resistance VMP terminals inside IC are pulled down to VSS, VMP terminals
Voltage is changed into VDDWhen less than/2, chip S-8254 enters resting state.The most electricity of chip S-8254 in the dormant state
Road quits work, and consumes electric current and is changed into IPDNBelow.The state of each lead-out terminal is changed into following state:COP:Hi-Z;DOP:
VDD.It is released from when meeting following condition in the dormant state:VMP terminal voltages are changed into VDD(charger is connected to when less than/2);
Over-discharge state is released from when following conditions are met:The voltage of all batteries is changed into VDLnMore than, and VDD terminal voltage
It is changed into VDD(charger is connected to when more than/2).
5th, overcurrent condition
The overcurrent detection level (V of the standby types of correspondence 3 of chip S-8254IOV1、VIOV2And VIOV3) and respective level
Overcurrent detection time delay (tIOV1、tIOV2And tIOV3).Discharge current (V bigger than certain valueSSAnd VINIVoltage difference compare VIOV1
In the case of greatly), this state is maintained at tIOV1During the above, chip S-8254 enters overcurrent condition.In overcurrent condition,
The voltage of DOP terminals is changed into VDDLevel, to discharge and be changed into OFF with FET, and stops electric discharge.In addition, COP terminals are changed into high impedance, by
It is pulled up in the current potential of EB+ terminals, causes charging FET to be changed into OFF.VMP terminals are pulled to V by internal resistance RVMDDD。
(the V of level 2 is detected for overcurrentIOV2) and overcurrent detection time delay (tIOV2) work be directed to VIOV1And tIOV1's
Work is identical.
In overcurrent condition, V is pulled to by the RVMD resistance VMP terminals inside ICDD, overcurrent condition is under satisfaction
It is released from when stating condition:Connected by charger or loaded open (more than 30M Ω), VMP terminal voltages are in VIOV3During the above.
This circuit be able to also can select following two about the charging of battery after self discharging (0V batteries), chip S-8254
A function side therein:A, the charging (can charge to 0V batteries) for allowing to 0V batteries, charger voltage compares V0CHAHigh feelings
Under condition, 0V batteries are electrically charged;B, the charging (cannot charge to 0V batteries) for forbidding to 0V batteries, cell voltage is in V0INHBelow
In the case of, it is not charged.
As shown in fig. 7, in the present embodiment, battery intelligent distributor circuit includes main storage battery charge management circuit, secondary electric power storage
Pond charge management circuit, main storage battery power-supplying circuit and secondary battery power-supplying circuit, as shown in figure 8, dual system is micro-
The connection circuit diagram of processor and LED drive module.The utility model is under original system model, by same homalographic too
Positive energy cell panel is divided into the solar panel of small one and large one two groups of independence.For example:By solar panel according to pseudo-ginseng point,
Originally the power of solar panel is 64W, is divided into 45W and 19W now, and corresponding battery is also equipped with two pieces, capacity according to
Pseudo-ginseng point, originally capacity are 12V, 40AH, and 12V, 28AH and 12V, two pieces of independent batteries of 12AH are divided into now, split it
Afterwards, cost had not both been increased or had not increased volume, the pcb board for then being provided by Ben Shentong had carried out management of charging and discharging, specifically
Workflow diagram is as shown in Figure 9.
Operationally, the capacity whether secondary battery electricity reaches 80% is paid the utmost attention to, because secondary battery capacity only has
12AH, 80% capacity is easily achieved, while 80% capacity can just discharge a whole night.With reference to electric discharge planned in advance
Curve (discharge curve refers here to the different time periods different brightness, it is ensured that when before midnight, personnel activity was frequent
Highlighted state) rationally electric discharge.When secondary battery discharges, main storage battery is in resting state, i.e. secondary battery and works a whole night,
Main storage battery can be charged continuous two daytimes.After secondary battery works a whole night, daytime main storage battery and secondary battery
Charging simultaneously, that is to say, that in the case that evening on the same day assumes that secondary battery is not full of, main storage battery works a whole night, secondary
Battery can fill two daytimes.The generated energy of solar panel is typically based on, under rainy weather, secondary battery needs 3
It can be full of, and an evening discharges storing electricity, that is, secondary battery is charged continuous 3 daytimes, and 2 evenings treat
Machine, works 1 evening, and main storage battery be then need 7 days it is fully charged, can be with continuous discharge 5 days, for main storage battery and secondary storage
Multiple authentication is circulated through as battery and confirms as great application breakthrough, realize 365 days bright lights, anti-overcast and rainy days are carried significantly
Rise, there is no concern that discharged or defective battery runs when winter or rainy season is experienced, reduce battery and fill the deep number of times put deeply, so electric power storage
Pond service life is original several times, and effectively improves the endurance and brightness of illumination of battery.
Although specifically showing and describing the utility model with reference to preferred embodiment, those skilled in the art should
This is understood, in the spirit and scope of the present utility model limited without departing from appended claims, in form and details
On the utility model can be made a variety of changes, be protection domain of the present utility model.
Claims (9)
1. integral type dual system may move optical energy street light head, including substrate, LED lamp component, battery and pcb board, and its feature exists
In the substrate is provided with main solar panel and secondary solar panel, and the battery includes main storage battery and secondary storage
Battery, the pcb board includes solar maximum power point follow-up control circuit, lithium battery protection circuit, battery intelligent distribution electricity
Road, dual system microprocessor and LED drive module, the main solar panel and secondary solar panel and the solar energy
MPPT maximum power point tracking control circuit connects, and the battery intelligent distributor circuit is tracked respectively with the solar maximum power point
The connection of control circuit, lithium battery protection circuit and dual system microprocessor, the lithium battery protection circuit and the main storage battery
With secondary battery connection, the dual system microprocessor is connected with the LED drive module, the LED drive module with it is described
LED lamp component connects.
2. integral type dual system according to claim 1 may move optical energy street light head, it is characterised in that:The battery intelligent
Distributor circuit include main storage battery charge management circuit, secondary battery charge management circuit, main storage battery power-supplying circuit and
Secondary battery power-supplying circuit.
3. integral type dual system according to claim 1 may move optical energy street light head, it is characterised in that:The dual system is micro-
Processor is also associated with strong and weak light identification sensor.
4. integral type dual system according to claim 1 may move optical energy street light head, it is characterised in that:The substrate, LED
Lamp component, battery and pcb board are close-coupled in frame.
5. integral type dual system according to claim 4 may move optical energy street light head, it is characterised in that:The main solar energy
The area ratio of cell panel and secondary solar panel is 7:3.
6. integral type dual system according to claim 4 may move optical energy street light head, it is characterised in that:The main solar energy
The area ratio of cell panel and secondary solar panel is 8:2.
7. integral type dual system according to claim 4 may move optical energy street light head, it is characterised in that:The main solar energy
The area ratio of cell panel and secondary solar panel is 6:4.
8. integral type dual system according to claim 4 may move optical energy street light head, it is characterised in that:Set on the frame
It is equipped with lamp stand convergence piece.
9. integral type dual system according to claim 4 may move optical energy street light head, it is characterised in that:It is solid in the frame
Surely there is at least one LED lamp component.
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CN201621123877.0U CN206160025U (en) | 2016-10-14 | 2016-10-14 | Portable light energy street lamp head of integral type dual system |
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CN201621123877.0U CN206160025U (en) | 2016-10-14 | 2016-10-14 | Portable light energy street lamp head of integral type dual system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106439720A (en) * | 2016-10-14 | 2017-02-22 | 厦门兴泰启贤新能源科技有限公司 | Integrated double-system mobile light energy streetlamp holder |
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- 2016-10-14 CN CN201621123877.0U patent/CN206160025U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106439720A (en) * | 2016-10-14 | 2017-02-22 | 厦门兴泰启贤新能源科技有限公司 | Integrated double-system mobile light energy streetlamp holder |
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