CN205938950U - Solar energy light fixture - Google Patents

Abstract

The utility model provides a solar energy light fixture, includes: lamps and lanterns, solar energy power supply with the electric energy that solar energy transformation is electric energy and storage conversion, just supplies power for lamps and lanterns, stand -by power supply, stand -by power supply is the lamps and lanterns power supply, with the electric power board that lamps and lanterns, solar energy power supply and stand -by power supply link to each other, control the electric energy of solar energy power supply storage conversion, and control solar energy power supply is the lamps and lanterns power supply, and detects solar energy power supply's power capacity, stand -by power supply supplies power for lamps and lanterns according to testing result control. The utility model provides a for the stand -by power supply that lamps and lanterns charge, when solar energy power supply can't supply power for lamps and lanterns, timely switching stand -by power supply supplied power for lamps and lanterns to the extension solar energy light fixture normal use the time the time of lighting.

Description

Solar energy lamp

This application claims on 08 19th, 2016 submit Patent Office of the People's Republic of China, Application No. 201610693796.2, invention name to It is referred to as the priority of the Chinese patent application of " solar energy lamp ", entire contents are hereby incorporated by the application.

Technical field

This utility model is related to field of illuminating lamps, particularly to a kind of solar energy lamp.

Background technology

Solar energy (Solar Energy), generally refers to the emittance of sunlight, and solar energy can serve as generating electricity.The sun Can increasingly be taken seriously and be used widely as the safe and environment-friendly new forms of energy of a kind of " inexhaustible ".Too Sun can light fixture be exactly the light fixture being provided that energy using the sun, is applied in a lot of city of China and area at present.

Existing solar energy lamp includes solar charging panel and rechargeable battery.Described solar charging panel absorbs the sun Radiation energy, and by solar radiant energy pass through photoelectric effect or Photochemical effects direct or indirect be converted into electric energy；The described sun Can charging panel be used for rechargeable battery is charged.On daytime, when solar irradiation is mapped to the surface of solar panels, solar charging Solar radiation is converted to electric energy by electroplax, and by wire transmission to controller, controller adjusts the charging voltage of rechargeable battery It is charged；When The night screen has hung down or light fixture ambient light illumination is relatively low, solar charging panel charges and terminates, and electric discharge starts, and fills Unidirectional current is converted to alternating current to light source power supply by controller by battery, lights solar energy lamp, consumes in rechargeable battery Electric energy.

However, converted light energy into conversion efficiency, charged battery capacity or the weather of electric energy by solar charging panel Etc. the impact of reason, when solar energy lamp normally uses, lighting time is too short, the normal use of impact solar energy lamp.

Utility model content

The problem that this utility model solves is to provide a kind of solar energy lamp, extends the normal use time of solar energy lamp, Avoid the occurrence of solar energy lamp internal charging battery electricity shortage and cause the problem that light fixture can not normally use.

For solving the above problems, this utility model provides a kind of solar energy lamp, including：Light fixture；Solar powered power supply, Convert solar energy into electrical energy and store the electric energy of conversion, and power for light fixture；Stand-by power supply, described stand-by power supply supplies for light fixture Electricity；The power board being connected with described light fixture, solar powered power supply and stand-by power supply, controls described solar powered electricity The electric energy of source storage conversion, and control described solar powered power supply to power for light fixture, and detect described solar powered power supply Power capacity, according to testing result control stand-by power supply power for light fixture.Optionally, described power board includes：With too The first control module that sun energy power supply is connected, controls the electric energy of solar powered power storage conversion；With described solar energy The second control module that power supply and light fixture are connected, controls solar powered power supply to power for light fixture；With described solar energy The detection feedback module that power supply, stand-by power supply and light fixture are connected, detects the power capacity of solar powered power supply, and according to Stand-by power supply is controlled to power for light fixture according to testing result.

Optionally, described detection feedback module includes：The detector unit being connected with described solar powered power supply, detection is too The power capacity of sun energy power supply；The judging unit being connected with described detector unit, whether the power capacity that judgement detects Less than capacity threshold；The feedback control unit being connected with described judging unit and stand-by power supply, according to described judging unit Judged result controls described stand-by power supply to power for light fixture.

Optionally, described stand-by power supply is dry battery assembly, standby rechargeable battery assembly or portable power source assembly.

Optionally, described standby rechargeable battery assembly includes standby rechargeable battery and is described standby rechargeable battery powered Charger.

Optionally, described solar powered power supply includes：The solar charging panel being connected with power board, by solar energy It is converted into electric energy；The internal charging battery being connected with power board, is charged using solar charging panel to store conversion Electric energy, and also power for light fixture.

Optionally, described solar energy lamp also includes：The Schema control plate being connected with described power board, controls described The ignition mode of light fixture, described ignition mode is ignition mode under often bright ignition mode or sensed conditions.

Optionally, described Schema control plate includes：Often bright control module, controls described light fixture to be in often bright state；Sensing Control module, controls described light fixture to be lighted under sensed conditions；With described often bright control module and sensing control module Connected selecting module, selects described often bright control module to open or described sensing control module is opened.

Optionally, described sensing control module includes：Signaling control unit, obtains sensed conditions, and according to the sense obtaining Condition is answered so that light fixture is lighted by described power board；The delays time to control unit being connected with described signaling control unit, is controlled The duration that light fixture is lighted under sensed conditions.

Optionally, described sensed conditions include：External environment illuminance is less than illuminance threshold value；Described sensing control module Also include：The illuminance sensing unit being connected with described signaling control unit, is obtained external environment illuminance, and judges extraneous ring Whether border illuminance is less than illuminance threshold value；When described external environment illuminance is less than illuminance threshold value, described illuminance sense Unit is answered to provide sensed conditions to described signaling control unit.

Optionally, described sensed conditions include：Outer signals are higher than signal threshold value；Described sensing control module also includes： The outer signals sensing unit being connected with described signaling control unit, obtains outer signals, and judges that the outer signals obtaining are No higher than signal threshold value；When described outer signals are higher than signal threshold value, described outer signals sensing unit is to described signal control Unit processed provides sensed conditions.

Optionally, described outer signals sensing unit includes：Signal acquisition device, obtains outer signals；Obtain with described signal Take the diagnosis apparatuss that device is connected, whether the outer signals that interpretation obtains are higher than signal threshold value；The feedback being connected with described diagnosis apparatuss is defeated Go out device, when judging described outer signals higher than signal threshold value, provide sensed conditions to signaling control unit.

Optionally, described outer signals are infrared signal；Described signal acquisition device is infrared inductor.

Optionally, described outer signals are acoustical signal；Described signal acquisition device is sound transducer.

Optionally, described light fixture includes at least one LED lamp.

Compared with prior art, the technical solution of the utility model has advantages below：

This utility model provide the technical scheme of solar energy lamp in, except include light fixture, solar powered power supply and Outside power board, also include the stand-by power supply being connected with power board.Described power board controls solar energy to supply first Power supply is powered to light fixture, and also detects the electric energy of solar powered power supply, and controls stand-by power supply for lamp according to testing result Tool power supply, therefore when solar powered power supply deficiency is detected and thinking that light fixture is powered, timely cut-in stand-by power supply is light fixture Power supply, thus extending lighting time when solar energy lamp normally uses, prevents due to solar powered power supply power capacity mistake The low and problem that causes light fixture cannot normally light.

Brief description

The schematic diagram of the solar energy lamp that Fig. 1 provides for this utility model；

Fig. 2 is the schematic diagram of the power board in Fig. 1；

Fig. 3 is the schematic diagram of the detection feedback module in Fig. 1；

Fig. 4 is the schematic diagram of pattern panel in Fig. 1；

Fig. 5 is the schematic diagram sensing control module in Fig. 4.

Specific embodiment

According to background technology, when in prior art, solar energy lamp normally uses, lighting time is short, affects solar energy lamp Normal use.

Understandable for enabling above-mentioned purpose of the present utility model, feature and advantage to become apparent from, below in conjunction with the accompanying drawings to this The specific embodiment of utility model is described in detail.

For solving the above problems, this utility model provides a kind of solar energy lamp, the sun that Fig. 1 provides for this utility model Each block diagram of energy light fixture, described solar energy lamp includes：

Light fixture 10；

Solar powered power supply 20, converts solar energy into electrical energy and stores the electric energy of conversion, and powers for light fixture 10；

Stand-by power supply 30；

The power board 40 being connected with described light fixture 10, solar powered power supply 20 and stand-by power supply 30, controls institute State the electric energy that solar powered power supply 20 stores conversion, and control described solar powered power supply 20 to power for light fixture 10, and examine Survey the power capacity of described solar powered power supply 20, control stand-by power supply 30 to power for light fixture 10 according to testing result.

The solar energy lamp that the present embodiment provides will be described in detail below.

The annexation of each part in solar energy lamp is not illustrate only further it is shown that each portion in solar energy lamp in Fig. 1 The logical relation of part, shows the relation between each part with the connecting line with arrow.The follow-up structural representation also phase providing The annexation and the logical relation that show each part, each module or each unit answered.

Described light fixture 10 includes at least one LED lamp.According to actual illumination demand, determine LED in described light fixture 10 Quantity；When the brightness of illumination of demand is brighter, in described light fixture 10, the quantity of LED is more.

In the present embodiment, described solar powered power supply 20 includes：The solar charging panel being connected with power board 40 21, described solar charging panel 21 utilizes photoelectric effect or Photochemical effects, converts solar energy into electrical energy；With described power supply The internal charging battery 22 that panel 40 is connected, described internal charging battery 22 is charged using solar charging panel 21 to deposit The electric energy of storage conversion, and also charge for light fixture 10.

Specifically, daytime solar irradiation be mapped on solar charging panel 21, solar charging panel 21 absorb solar radiation Can, convert solar energy into electrical energy；And, described power board 40 controls described solar charging panel 21 to charge inside electricity Pond 22 is charged, by the power storage of conversion in internal charging battery 22.When needing illumination, described power board 40 is controlled Make described internal charging battery 22 to power for light fixture 10.

The preferential control internal charging battery 22 of described power board 40 is powered for light fixture 10, charge inside will be detected When the lack of memory capacity of battery 22 thinks light fixture 10 power supply, stand-by power supply 30 is controlled to power for light fixture 10.

Fig. 2 shows the structural representation of power board 40 in Fig. 1, for convenience of description, also show and electricity in Fig. 2 Solar powered power supply 20, light fixture 10 and stand-by power supply 30 that source panel 40 is connected.With reference to Fig. 2, described power board Including：

The first control module 41 being connected with solar powered power supply 20, controls solar powered power supply 20 storage conversion Electric energy；

The second control module 42 being connected with described solar powered power supply 20 and light fixture 10, controls solar powered electricity Source 20 powers for light fixture 10；

The detection feedback module 43 being connected with described solar powered power supply 20, stand-by power supply 30 and light fixture 10, detection The electric energy energy of solar powered power supply 20, and control stand-by power supply 30 to power for light fixture 10 according to testing result.

Specifically, described first control module 41 is connected with described solar charging panel 21 and internal charging battery 22. When daytime, solar irradiation was mapped on solar charging panel 21, described first control module 41 controls described solar charging panel 21 By the power storage of conversion in internal charging battery 22, internal charging battery 22 is charged.

Described second control module 42 is connected with described internal charging battery 22 and light fixture 10, when needing illumination, control Internal charging battery 22 processed charges for light fixture 10.

Described detection feedback module 43 is connected with described internal charging battery 22, stand-by power supply 30 and light fixture 10, detection The power capacity of internal charging battery 22, that is, detect the memory capacity of internal charging battery 22, and control standby according to testing result Powered for light fixture 10 with power supply 30.

In fact, for the workload reducing detection feedback module 43, described detection feedback module 43 detects charge inside Battery 22 is the memory capacity of internal charging battery 22 in light fixture 10 power supply process.

Additionally, in order to timely find due under extreme condition or in solar powered power supply 20 quality problems cause The low situation of storage energy after portion's rechargeable battery 22 charging, described detection feedback module 43 can also detect internal charging battery 22 Memory capacity before for light fixture 10 power supply, timely obtains whether internal charging battery 22 possesses the bar for light fixture 10 power supply Part, thus ensureing that stand-by power supply 30 is powered for light fixture 10 in time, reduce response lag time of being lit of solar energy lamp it is ensured that Solar energy lamp is lit in time, improves the susceptiveness of solar energy lamp.

Fig. 3 shows the structural representation detecting feedback module 43 in Fig. 2, for ease illustration and understanding, also shows in Fig. 3 Go out solar powered power supply 20, stand-by power supply 30 and the light fixture 10 being connected with described detection feedback module 43.With reference to Fig. 3, Described detection feedback module 43 includes：

The detector unit 401 being connected with described solar powered power supply 20, described detector unit 401 detects described solar energy The power capacity of power supply 20；

The judging unit 402 being connected with described detector unit 401, described judging unit 402 judges that the electric energy detecting holds Whether amount is less than capacity threshold；

The feedback control unit 403 being connected with described judging unit 402 and stand-by power supply 30, described feedback control unit 403 control described stand-by power supply 30 to power for light fixture 10 according to the judged result of described judging unit 402.

The power capacity of described solar powered power supply 20 can be characterized with terminal voltage, in order to reduce detector unit The difficulty of the power capacity of the 401 described solar powered power supplys 20 of detection, in the present embodiment, described detector unit 401 detects institute State the terminal voltage of solar powered power supply 20.

Specifically, described detector unit 401 is connected with described internal charging battery 22, and detection obtains described charge inside electricity The memory capacity in pond 22.In the present embodiment, described internal charging battery 22 is characterized with the terminal voltage of described internal charging battery 22 Memory capacity, described detector unit 401 detects the terminal voltage of described internal charging battery 22.

Described judging unit 402 judges whether the memory capacity of described internal charging battery 22 is less than capacity threshold, wherein, Capacity threshold refers to enough to the lowest capacity for light fixture 10 power supply, when the memory capacity of described internal charging battery 22 is less than During capacity threshold, described internal charging battery 22 will be difficult to continue light fixture 10 is powered.It should be noted that described capacity Threshold value is relevant with the lighting power of described light fixture 10, the difference of the lighting power according to described light fixture 10, described judging unit 402 The capacity threshold of institute's foundation can change.Additionally, described capacity threshold can also be fixed value.

In the present embodiment, described detector unit 401 detects the voltage between described internal charging battery 22 two ends；Accordingly , described judging unit 402 judges whether the terminal voltage of internal charging battery 22 is less than capacity threshold, and described capacity threshold refers to It is the minimum voltage it is sufficient to for light fixture 10 power supply；When the terminal voltage of described internal charging battery 22 is less than described capacity threshold, Described internal charging battery 22 will be difficult to continue light fixture 10 is powered.

When the memory capacity that the judged result of described judging unit 402 is rechargeable battery 22 is less than capacity threshold, described Feedback control unit 403 controls stand-by power supply 30 to power for light fixture 10, timely powers for light fixture 10 from internal charging battery 22 Switch to stand-by power supply 30 to power for light fixture 10, thus extending the use time of described solar energy lamp.

Described stand-by power supply 30 is dry battery assembly, standby rechargeable battery assembly or portable power source.The described standby electricity that charges Pond assembly includes standby rechargeable battery and is described standby rechargeable battery powered charger.

With reference to Fig. 1, in the present embodiment, described solar energy lamp can also include：It is connected with described power board 40 Schema control plate 50, described Schema control plate 50 controls the ignition mode of described light fixture 10, and described ignition mode is that Chang Liangdian is bright Ignition mode under pattern or sensed conditions.

Fig. 4 shows the structural representation of pattern panel 50 in Fig. 1, for ease illustration and understanding, also illustrates that in Fig. 4 The power board 40 that is connected with described Schema control plate 50.With reference to Fig. 4, described Schema control plate 50 includes：

Often bright control module 51, described often bright control module 51 controls described light fixture 10 to be in often bright state；

Sensing control module 52, described sensing control module 52 controls described light fixture 10 to be lighted under sensed conditions；

The selecting module 53 being connected with described often bright control module 51 and sensing control module 52, described selecting module 53 Select described often bright control module 51 to open or described sensing control module 52 is opened.

Specifically, described often bright control module 51 is connected with power board 40 by selecting module 53.Work as selecting module 53 when selecting described often bright control module 51 to open, after described power board 40 controls described light fixture 10 to be lit, described too Sun energy power supply 20 or stand-by power supply 30 are powered so that light fixture 10 is in illuminating state all the time for light fixture 10.

If illuminating state is in all the time due to described light fixture 10, the power capacity of solar powered power supply 20 or standby The power capacity of power supply 30 all consumes comparatively fast, is unfavorable for energy saving.For this reason, also providing sensing control module 52 so that light fixture 10 are lighted under sensed conditions, reduce the consumption of the energy.

Described sensing control module 52 is connected with power board 40 by selecting module 53.When selecting module 53 selects institute When stating sensing control module 52 unlatching, described power board 40 controls described light fixture 10 to be lighted under sensed conditions, and Described light fixture 10 is also controlled to extinguish after sensed conditions disappearance.

Fig. 5 shows the structural representation sensing control module 52 in Fig. 4.With reference to Fig. 5, described sensing control module 52 is wrapped Include：

Signaling control unit 501, described signaling control unit 501 is used for obtaining sensed conditions, and according to the sensing obtaining Condition makes light fixture 10 light by described power board 40；

The delays time to control unit 502 being connected with described signaling control unit 501, described delays time to control unit 502 controls institute State the duration that light fixture 10 is lighted under sensed conditions.It should be noted that described delays time to control unit 502 controls described light fixture 10 Light under sensed conditions when a length of adjustable, according to lighting demand, adjust described light fixture 10 and light under sensed conditions Duration.

Specifically, described sensed conditions include：External environment illuminance is less than illuminance threshold value.Wherein, described illuminance Threshold value is can be configured according to lighting demand, and described illuminance threshold value can for linear adjustable numerical range it is also possible to For multiple adjustable fixed numbers.

Accordingly, described sensing control module 52 also includes：The illuminance sensing being connected with described signaling control unit 501 Unit 601, described illuminance sensing unit 601 obtains external environment illuminance, and judges whether external environment illuminance is less than Illuminance threshold value；When described external environment illuminance is less than illuminance threshold value, described illuminance sensing unit 601 is to described letter Number control unit 501 provides sensed conditions so that described signaling control unit 501 obtains described sensed conditions, so that institute Stating power board 40 controls light fixture 10 to light.

Described sensed conditions also include：Outer signals are higher than signal threshold value, and for example, extraneous infrared signal is detected is higher than letter Number threshold value, judges that in external environment, someone is through needing solar energy lamp to be illuminated；Or, external sound signal is detected high In signal threshold value, accordingly also judge that in external environment, someone is through needing solar energy lamp to be illuminated.

Accordingly, described sensing control module 52 includes：The outer signals sensing being connected with described signaling control unit 501 Unit 602, described outer signals sensing unit 602 is used for obtaining outer signals, and judges that whether the outer signals obtaining are higher than Signal threshold value；When described outer signals are higher than signal threshold value, described outer signals sensing unit 602 controls single to described signal Unit 501 offer sensed conditions.

Described outer signals sensing unit 602 includes：Signal acquisition device, described signal acquisition device is used for obtaining extraneous letter Number；The diagnosis apparatuss being connected with described signal acquisition device, described diagnosis apparatuss are used for judging whether the outer signals obtaining are higher than signal Threshold value；The feedback follower being connected with described diagnosis apparatuss, when judging that described outer signals are higher than signal threshold value, described feedback is defeated Going out device provides sensed conditions to signaling control unit 501.

When described outer signals are infrared signal, described signal acquisition device is infrared inductor, and described infrared inductor can Think passive infrared induction apparatuss (PIR, Passive infrared detectors).When described outer signals are acoustical signal, Described signal acquisition device is sound transducer.In other embodiments, described outer signals are infrared signal and acoustical signal When, described signal acquisition device is infrared inductor and sound transducer.

In the present embodiment, described sensed conditions can be less than illuminance threshold value for external environmental light illumination and outer signals are high In signal threshold value, then described sensing control module 52 includes illuminance sensing unit 601 and outer signals sensing unit 602； When signaling control unit 501 obtains external environment illuminance and is less than illuminance threshold value, and outer signals are higher than signal threshold value When, described power board 40 controls described light fixture 10 to be lit.

In other embodiments, described sensed conditions can be less than illuminance threshold value or the external world for external environmental light illumination Signal is higher than one of signal threshold value, and accordingly, described sensing control module includes illuminance sensing unit or extraneous letter One of number sensing unit.

In the solar energy lamp that the present embodiment provides, initially with the internal charging battery in solar powered power supply to lamp Tool power supply；When remaining storage power capacity is detected in internal charging battery and being too low, that is, internal charging battery is detected and do not have soon When electric, powered for light fixture by power board cut-in stand-by power supply, thus extending the use time of solar energy lamp, it is to avoid by Lighting time too short problem when the light fixture that a variety of causes causes normally uses, described a variety of causes includes：Daytime sun spoke Penetrate that the electric energy that low can cause solar powered power storage is low, the lighting power to solar energy lamp has high demands, solar recharging The photoelectric transformation efficiency of plate is low or the low problem of charged battery capacity.

Although this utility model discloses as above, this utility model is not limited to this.Any those skilled in the art, Without departing from spirit and scope of the present utility model, all can make various changes or modifications, protection domain therefore of the present utility model Should be defined by claim limited range.

Claims (15)

1. a kind of solar energy lamp is it is characterised in that include：

Light fixture；

Solar powered power supply, converts solar energy into electrical energy and stores the electric energy of conversion, and power for light fixture；

Stand-by power supply, described stand-by power supply is powered for light fixture；

The power board being connected with described light fixture, solar powered power supply and stand-by power supply, controls described solar powered The electric energy of power storage conversion, and control described solar powered power supply to power for light fixture, and detect described solar powered electricity The power capacity in source, controls stand-by power supply to power for light fixture according to testing result.

2. solar energy lamp as claimed in claim 1 is it is characterised in that described power board includes：

The first control module being connected with solar powered power supply, controls the electric energy of solar powered power storage conversion；

The second control module being connected with described solar powered power supply and light fixture, controls solar powered power supply to supply for light fixture Electricity；

The detection feedback module being connected with described solar powered power supply, stand-by power supply and light fixture, detects solar powered electricity The power capacity in source, and control stand-by power supply to power for light fixture according to testing result.

3. solar energy lamp as claimed in claim 2 is it is characterised in that described detection feedback module includes：

The detector unit being connected with described solar powered power supply, detects the power capacity of solar powered power supply；

The judging unit being connected with described detector unit, judges whether the power capacity detecting is less than capacity threshold；

The feedback control unit being connected with described judging unit and stand-by power supply, according to the judged result control of described judging unit Make described stand-by power supply to power for light fixture.

4. solar energy lamp as claimed in claim 1 is it is characterised in that described stand-by power supply is dry battery assembly, standby fills Electric battery component or portable power source assembly.

5. solar energy lamp as claimed in claim 4 is it is characterised in that described standby rechargeable battery assembly includes standby charging Battery and be described standby rechargeable battery powered charger.

6. solar energy lamp as claimed in claim 1 is it is characterised in that described solar powered power supply includes：

The solar charging panel being connected with power board, is converted solar energy into electrical energy；

The internal charging battery being connected with power board, is charged to store the electric energy of conversion using solar charging panel, And also power for light fixture.

7. solar energy lamp as claimed in claim 1 is it is characterised in that described solar energy lamp also includes：

The Schema control plate being connected with described power board, controls the ignition mode of described light fixture, described ignition mode is normal Ignition mode under bright ignition mode or sensed conditions.

8. solar energy lamp as claimed in claim 7 is it is characterised in that described Schema control plate includes：

Often bright control module, controls described light fixture to be in often bright state；

Sensing control module, controls described light fixture to be lighted under sensed conditions；

The selecting module being connected with described often bright control module and sensing control module, selects described often bright control module to open Or described sensing control module is opened.

9. solar energy lamp as claimed in claim 8 is it is characterised in that described sensing control module includes：

Signaling control unit, obtains sensed conditions, and makes light fixture point according to the sensed conditions obtaining by described power board Bright；

The delays time to control unit being connected with described signaling control unit, controls the duration that light fixture is lighted under sensed conditions.

10. solar energy lamp as claimed in claim 9 is it is characterised in that described sensed conditions include：External environment illuminance Less than illuminance threshold value；

Described sensing control module also includes：

The illuminance sensing unit being connected with described signaling control unit, is obtained external environment illuminance, and judges external environment Whether illuminance is less than illuminance threshold value；When described external environment illuminance is less than illuminance threshold value, described illuminance sensing Unit provides sensed conditions to described signaling control unit.

11. solar energy lamps as claimed in claim 9 are it is characterised in that described sensed conditions include：Outer signals are higher than letter Number threshold value；

Described sensing control module also includes：

The outer signals sensing unit being connected with described signaling control unit, is obtained outer signals, and judges the extraneous letter obtaining Number it is higher than whether signal threshold value；When described outer signals are higher than signal threshold value, described outer signals sensing unit is to described letter Number control unit provides sensed conditions.

12. solar energy lamps as claimed in claim 11 are it is characterised in that described outer signals sensing unit includes：

Signal acquisition device, obtains outer signals；

The diagnosis apparatuss being connected with described signal acquisition device, whether the outer signals that interpretation obtains are higher than signal threshold value；

The feedback follower being connected with described diagnosis apparatuss, when judging described outer signals higher than signal threshold value, controls single to signal Unit provides sensed conditions.

13. solar energy lamps as claimed in claim 12 are it is characterised in that described outer signals are infrared signal；Described letter Number getter is infrared inductor.

14. solar energy lamps as claimed in claim 12 are it is characterised in that described outer signals are acoustical signal；Described letter Number getter is sound transducer.

15. solar energy lamps as claimed in claim 1 are it is characterised in that described light fixture includes at least one LED lamp.