CN206504252U - Energy-saving solar lighting device - Google Patents

Abstract

The utility model be a kind of energy-saving solar lighting device, including light emitting module, solar energy module, battery tray, inductor and control circuit.The light emitting module produces illumination to luminous；The solar energy module is used to receive luminous energy in outdoor environment and changed, and then provides a solar energy converting electrical energy；The battery pack that the battery tray can produce a battery power to provide is assembled；The inductor is to be sensed and be produced an induced signal；The control circuit gives the light emitting module to control to be provided the solar energy converting electrical energy by the solar energy module or provided the battery power by the battery pack, and is judged according to the induced signal, and then controls the light emitting module luminous or do not light.In this way, the utility model can more effectively reach the purpose for saving the energy.

Description

Energy-saving solar lighting device

Technical field

The utility model is related to lighting device, more particularly, to a kind of energy-saving solar lighting device.

Background technology

General lighting device or light fixture be use conventional incandescent bulb, fluorescent tube or Electricity-saving lamp bulb etc. as light-emitting component with Illumination is provided；And with technological progress, the design using light emitting diode (LED) as light-emitting component is also more and more extensively, and energy Bring more preferably illuminating effect.

Further, since how the attention for environmental protection now, effectively utilized with being opened to the resource with regenerative nature Hair turns into current important issue.Sunshine be it is a kind of it is inexhaustible, nexhaustible from however clean resource, example Such as, solar cell (Solar Cell) or solar panels that the technology manufacture for producing electric energy is changed using sunshine are carried out each Application is planted, the use energy needed for associate power device can be provided.

Therefore, for outdoor lighting device, such as street lamp is used as its illumination fortune by the use of solar cell or solar panels The power source of work, is just a kind of great energy-saving and environmental protection and appropriate concept and measure.Also just because of being arranged at outdoor or can take Band to outdoor lighting device can relatively efficiently receive the irradiation of sunshine so that the solar cell that is arranged on or too Positive energy plate can relatively be fixedly arranged on indoor generation more preferably photoelectric conversion result.

The current existing considerable degree of development of outdoor illumination device combination heliotechnics, and also have in industry and generally answer With.But it is due to that there is solar power generation geneogenous condition to limit, that is, can only will be being changed in the daytime or during fine day Electric energy is stored, and can not then be generated electricity when night or not enough sunshine so that the running of device must also consider other in addition to solar energy Power supply source, is operated with avoiding the less power of solar energy with providing illumination.Related hybrid power supply technology refers to Chinese invention Content disclosed by patent application publication CN102913839B, CN102478195A.

Even if however, setting other accessory power supplys in lighting device, its purpose is also only to ensure in power supply Stability, obvious relation between persistence is had no with original energy-conservation purport for using heliotechnics.For example, if lighting device is in day Between can not effectively store electric energy, be then only capable of using other accessory power supplys when power supply is needed；So design and general illumination Device has no difference, is also unable to reach any energy-conservation operational effect.Therefore how to solve asking for this prior art presence Topic, the main purpose just developed for the utility model.

Utility model content

The technical problems to be solved in the utility model is that there is provided a kind of energy for deficiencies of the prior art More effectively save the energy-saving solar lighting device of the energy.

The utility model solves the technical scheme that its technical problem used and is to provide a kind of energy-saving solar illumination dress Put, including light emitting module, solar energy module, battery tray, inductor and control circuit.The light emitting module is produced to luminous Illumination；The solar energy module is used to receive luminous energy in outdoor environment and changed, and then provides a solar energy converting electrical energy；Should The battery pack that battery tray produces a battery power to provide is assembled；The inductor is to be sensed and be produced a sensing Signal；The control circuit is to control to provide the solar energy converting electrical energy by the solar energy module or provide the electricity by the battery pack Pond electric energy gives the light emitting module, and is judged according to the induced signal, and then controls the light emitting module luminous or do not light.

It is preferred that the inductor is any one of a passive type motion sensor and an active motion sensor；Its In, the passive type motion sensor is human body infrared (PIR) inductor of passive type, and the active motion sensor is actively Type micro-wave (Microwave) inductor.

It is preferred that the active microwave sensor at least includes a microwave module with battery saving mode.

It is preferred that the inductor is the motion sensor to carry out action induction and one action induction signal of generation, and When the action induction signal reaction is showed in the range of an action induction with action change situation, control circuit control The light emitting module lights；When the action induction signal reaction is showed in the range of the action induction without action change situation When, the control circuit controls the light emitting module not light.

It is preferred that the control circuit controls the light emitting module first to turn when the light emitting module is luminous with one first luminous intensity Change into and do not lighted again after being lighted with one second luminous intensity, and second luminous intensity is less than first luminous intensity.

It is preferred that the energy-saving solar lighting device also includes optical inductor, to carry out environment photoinduction and produce One light sensation induction signal, and the control circuit is used to be judged according to the light sensation induction signal, and then control the light emitting module to light Or do not light.

It is preferred that the inductor is the motion sensor to carry out action induction and one action induction signal of generation, and When the ambient light of the photoinduction signal reaction in the range of a photoinduction be not up to a luminous intensity threshold value and the action induction signal React on showed in the range of an action induction with action change situation when, the control circuit control the light emitting module light； When the ambient light of the photoinduction signal reaction in the range of the photoinduction meets or exceeds the luminous intensity threshold value, control electricity Road controls the light emitting module not light.

It is preferred that the inductor is the motion sensor to carry out action induction and one action induction signal of generation, and When the ambient light of the photoinduction signal reaction in the range of a photoinduction be not up to a luminous intensity threshold value, control circuit control The motion sensor carries out action induction；When the ambient light of the photoinduction signal reaction in the range of the photoinduction is met or exceeded During the luminous intensity threshold value, the control circuit controls the motion sensor to stop action induction.

It is preferred that control circuit control preferentially provides the solar energy converting electrical energy by the solar energy module gives the luminous mould Block.

It is somebody's turn to do it is preferred that the control circuit controls to be provided by the solar energy module according to the voltage of the solar energy converting electrical energy Solar energy converting electrical energy provides the battery power by the battery pack and gives the light emitting module.

It is preferred that when the voltage of the solar energy converting electrical energy is not up to an output threshold value, the control circuit controls this too Positive energy module stops providing the solar energy converting electrical energy.

It is preferred that the light emitting module includes one or more light emitting diodes.

It is preferred that the energy-saving solar lighting device also includes transport module, and when the voltage of the battery power does not reach During one output threshold value, the control circuit sends a warning message to a rear end monitoring interface by the transport module.

The utility model also provides a kind of energy-saving solar lighting device, including light emitting module, solar energy module, preset Type electric energy supplying module, inductor and control circuit.The light emitting module produces illumination to luminous；The solar energy module is used To receive luminous energy in outdoor environment and be changed, and then provide a solar energy converting electrical energy；The inductor is to be sensed And produce an induced signal；The control circuit provides the solar energy converting electrical energy or pre- by this to control by the solar energy module Type electric energy supplying module one preset-type electric energy of offer is provided and gives the light emitting module, and is judged according to the induced signal, and then is controlled The light emitting module is made to light or do not light.

It is preferred that the solar energy module at least includes a solar panels and a solar cell.

It is preferred that the preset-type electric energy supplying module at least includes a battery tray and produces a battery power and be assembled in One battery pack of the battery tray.

It is preferred that the inductor is any one of a passive type motion sensor and an active motion sensor；Its In, the passive type motion sensor is human body infrared (PIR) inductor of passive type, and the active motion sensor is actively Type micro-wave (Microwave) inductor.

It is preferred that the active microwave sensor at least includes a microwave module with battery saving mode.

It is preferred that the inductor is to answer a variation of ambient temperature to produce the temperature sense of a temperature sensor signal Device, and the control circuit should temperature sensor signal be in one cross the condition of high temperature or one cross low-temperature condition, control the solar energy mould Block, which stops providing the solar energy converting electrical energy, gives the light emitting module, or controls the preset-type electric energy supplying module to stop providing this pre- The type electric energy of putting gives the light emitting module.

The utility model energy-saving solar lighting device is except only with two kinds of solar energy converting electrical energy and battery power Vertical power supply, outside being supplied to light emitting module to be illuminated, also utilizes the various sensing hands including action induction technology Section or more upper ambient light induction technology, with control appositely the light emitting module illumination whether, so so that the photograph proposed Bright device can more effectively reach the purpose for saving the energy.

In order to more preferably understand having in terms of above and other of the present utility model, special embodiment below, and coordinate institute Accompanying drawings, elaborate.

Brief description of the drawings

The stereoscopic for the energy-saving solar lighting device 100 that Fig. 1 is proposed by the utility model first embodiment Schematic diagram.

Fig. 2 be Fig. 1 in energy-saving solar lighting device 100 function block schematic diagram.

The function block for the energy-saving solar lighting device 100 ' that Fig. 3 is proposed by the utility model second embodiment Schematic diagram.

Fig. 4 is applied to the microwave module in active type micro-wave (Microwave) inductor disclosed by the utility model Implementation conceptual schematic view.

Embodiment

Embodiment set forth below is so that the utility model to be described in detail, and these embodiments as example only to say It is bright, the scope to be protected of the utility model can't be limited.In addition, the schema in embodiment omits unnecessary element, with clear Chu shows technical characterstic of the present utility model.

The implementation explanation of energy-saving solar lighting device of the present utility model is now carried out with a first embodiment.Please simultaneously Referring to Fig. 1 and Fig. 2, the stereoscopic for the energy-saving solar lighting device 100 that wherein Fig. 1 is proposed by first embodiment shows It is intended to；Fig. 2 is the function block schematic diagram of the energy-saving solar lighting device 100.As shown in figure 1, in can be seen that in appearance The lighting device 100 includes a body 10, a light emitting module 12, a solar energy module 11 and a motion sensor 13, and is somebody's turn to do Light emitting module 12, the solar energy module 11 are arranged on the body 10 with the motion sensor 13.Wherein the light emitting module 12 is used Illumination is produced with luminous, the solar energy module 11 is used to receive luminous energy in outdoor environment and changed, and the action induction Device 13 is then to carry out action induction.Wherein, the solar energy module 11 at least includes a solar panels 111 and a solar cell (not shown).

As shown in Fig. 2 the lighting device 100 further includes a battery tray 14 and a control circuit 15.Come in detail Say, the lighting device 100 has related circuit structure, this circuit structure is arranged in the body 10 with the battery tray 14, should Control circuit 15 and the electronic component of correlation etc. may be disposed on a circuit board (being not depicted in schema), and the control circuit 15 is It is electrically connected in the light emitting module 12, the solar energy module 11, the battery tray 14 and the motion sensor 13 to enter through circuit Row control or transmission electric energy.The control circuit 15 is opened by such as processor, internal memory, signal detector, signal amplifier, signal The electronic components such as pass are constituted, and related control instruction (or programme-control code) can be remembered using firmware or software mode storage Record in the internal memory of the control circuit 15, to provide processor automatic access and execution.

It is noted that in Fig. 1 the constructional appearance of shown lighting device 100 be only an embodiment illustration and , the design of its constructional appearance can be done under the concept for the energy-saving solar lighting device that the utility model is proposed it is other can The change associated easily.For example, the lighting device 100 can do structure design using different fixed modes.For example It can be fixedly arranged on using a fixed support at least two bolt-lock screws of collocation on wall, or using a fixed support one bullet of collocation Property pincers (spring clamp) and clamping or arranges in pairs or groups using a fixed support the one of adjustable pitch on buttress shaft body or flat sheet Fix pincers (mount clamp) and be fastened in buttress shaft body or flat sheet, or using a fixed support one inserted link of collocation (pole) it is inserted on meadow, or is directly placed in using a fixed support one pedestal of collocation (base) in plane.

On the other hand, in order to reach effective running, the solar energy module 11 (solar panels especially therein) can be set It is placed in the side of the body 10 and turns on sharp solar radiation, the light emitting module 12 may be disposed at the top surface of the body 10 simultaneously Turn towards under in favor of one correspondence scope in be illuminated, and the motion sensor 13 then may be disposed at the bottom surface of the body 10 with Beneficial to carrying out action induction in the range of an action induction.Furthermore, the light emitting module 12 is to use one or more light emitting diodes Unit is set.

In addition, the battery pack 141 that the battery tray of this in the utility model 14 can then produce a battery power to provide is made Assembling, and the battery pack 141 be operating voltage regarding the light emitting module 12 and use provide the battery of suitable driving voltage with Number.One of feature of the present utility model is that the battery tray 14 is supplied with the preset-type electric energy that the battery pack 141 is constituted Module, is used being collocated with each other with the solar energy module 11, and the utility model does not provide any circumscribed (including civil power Inside) or instant inserted and instant using type electric energy supply mean, with reduce design and production cost.Consequently, it is possible to the solar energy module 11 Change received luminous energy and a solar energy converting electrical energy is provided, and then preparation provides the battery power (i.e., to the battery pack 141 For a preset-type electric energy).In other words, energy-saving solar lighting device of the present utility model has the solar energy converting electrical energy With two kinds of independent power supplys of the battery power, the light emitting module 12 is given to be used as illumination to provide.

But simultaneously, another feature of the present utility model is to be using the solar energy converting electrical energy of energy-conservation as photograph Under conditions of bright power supply, except using in addition to power supply of the independent battery power as auxiliary, also need while what automatic decision was adapted to Illumination opportunity or the opportunity of Switching power, further to optimize overall power saving effect, effectively to extend the lighting device 100 Service life.

In this first embodiment, using the motion sensor 13 setting and its sensing result as main judgement according to According to.The motion sensor 13 can be any one of a passive type motion sensor and an active motion sensor；Wherein, should Passive type motion sensor can be human body infrared (PIR) inductor of a passive type, and the active motion sensor can be one Active type micro-wave (Microwave) inductor.

Certainly, the fortune of human body infrared (PIR) inductor of foregoing passive type and active type micro-wave (Microwave) inductor Though it is different to make principle, whether identical function is can to induce to have personnel or object to pass through in the range of an action induction Or have the situation of personnel or object generation action change etc., and then can be performed according to change situation related in induction range Set control, that is, the light emitting module 12 illumination whether.

Due to when attonity changes situation in the range of described action induction, representing no personnel's process without offer photograph Bright demand.Therefore, the purpose for saving the energy can be more effectively achieved to ask, design, which is worked as, in this embodiment there are action change feelings The light emitting module 12 is just set to light during shape.Specifically, the motion sensor 13 can be accordingly after action induction is proceeded by An action induction signal is produced, and the control circuit 15 will be judged according to the action induction signal.When action induction letter Number react on when being showed in the range of the action induction with action change situation, the control circuit 15 controls the light emitting module 12 It is luminous；When the action induction signal reaction is showed in the range of the action induction without action change situation, the control Circuit 15 controls the light emitting module 12 not light.

For further, the lighting device 100 of this embodiment also includes an operation interface 16, the operation interface 16 It is settable to have unlatching (ON), close the operator scheme setting key such as (OFF), automatic (AUTO)；Start button therein is the unlatching hair Optical module 12 light for a long time or manual control is luminous, and close key (makes this luminous for the running of the stopping lighting device 100 Module 12 does not light), automatic key is then the automatic illuminating running for making the lighting device 100 carry out above-mentioned action induction.

Therefore in the case where being set to automatic mode, when attonity changes situation in the range of described action induction, this lights Module 12 does not just light, or switchs to from previous luminance not light.And from start to judge attonity change situation to Switching to non-luminous this time length can preset, or the time that the definable light emitting module 12 lights every time is fixed length Degree.In addition, the lighting device 100 of this embodiment is additionally provided with an adjustment interface 17, and the adjustment interface 17 can have offer User manually adjusts multiple knobs of the function such as brightness of illumination and adjustment lighting hours.

The operation interface 16 is only a kind of illustration in this embodiment with the adjustment interface 17, in similar reality Different change designs can also be done by applying under concept.For example, the operation interface 16 with the adjustment interface 17 can be done whole Close, and can be set in one or two knob mode and user's switching is provided and operate out the pattern or function specified.

From the above, because the light emitting module 12 is set with the material of light emitting diode (LED), so brightness of illumination Adjustment can be controlled by and can complete via the power output to its light emitting diode.Therefore first embodiment is in photograph It can be also further change in terms of the presentation of lightness.For example, in the case where being set to automatic mode, when the luminous mould After block 12 is luminous, when attonity changes situation again in the range of described action induction, the not illumination mode of the light emitting module 12 can It is set to two benches formula；Make the light emitting module 12 luminous with one first luminous intensity when namely the control circuit 15 is initial, connect The light emitting module 12 is first turned with luminous intensity one second luminous intensity small compared with first luminous intensity it is luminous after, then change into and do not send out Light.

Furthermore, during luminous with second luminous intensity, if there is action change situation again in the range of the action induction When, the light emitting module 12 can turn luminous with larger first luminous intensity of luminous intensity again.Although it follows that this design is extended The time that the light emitting module 12 lights each time, but in the way of second luminous intensity is illuminated and be unlikely to cause excessive electricity The consumption of energy, can but reach lifting safety and the effect favorably monitored, the excessive light on and off of difference in the short time can be also avoided simultaneously The problems such as easily causing personnel's eyes discomfort or the material property of luminescence unit may be damaged.

Changed from first embodiment and its possible implementation, by sense when have personnel or object by when just make this The mode that light emitting module 12 starts illumination has effectively achieved the effect saved.If the solar energy module 11 in the daytime or fine day turn Change and store enough solar energy converting electrical energies, effective power-saving technology will likely allow without using arriving or using only to a small amount of Battery power.And the above-mentioned automatic illuminating running on action induction is said for judging that suitable illumination opportunity does implementation It is bright；In addition, on the other hand first embodiment further comprises the opportunity of automatic decision Switching power, that is, electricity is changed in solar energy The switching powered can be done between battery power.

Because the battery pack 141 is a kind of consumptive material, just need to be replaced when battery-depletion therein.But the sun Energy module 11 has Rechargeability, thus can use for long periods without replacing.Therefore the consumption in order to reduce the battery power With and frequently change, designed in this first embodiment when there is lighting demand, the control circuit 15 will control preferential by this Solar energy module 11 provides the solar energy converting electrical energy and gives the light emitting module 12 to be lighted.

From the above, the control circuit 15 is controlled by the solar energy module always according to the voltage of the solar energy converting electrical energy 11 offer solar energy converting electrical energies provide the battery power by the battery pack 141 and give the light emitting module 12.Specifically, when The solar energy converting electrical energy still can should light emitting module 12 operating voltage and when being supplied, the control circuit 15 is still switched to The solar energy module 11 and use solar energy converting electrical energy；When the solar energy converting electrical energy is not enough to supply the light emitting module 12 During operating voltage, the control circuit 15 just switches to the battery pack 141 and uses battery power.

Meanwhile, when giving the light emitting module 12 with the battery pack 141 supply electric energy, the work(of automatic reduction power supply can also be selected Rate (that is, reduce the brightness of illumination of the light emitting module 12), further to save the power consumption of the battery pack 141, and can reach and carry The user that wakes up uses effect of electric energy species at present.

In addition, except the operating voltage according to the light emitting module 12 is compared and sentenced with stored solar energy converting electrical energy It is disconnected outer, in order to maintain the performance efficiency of the solar energy module 11, stored electric energy should not also be done excessively according to its material property Electric discharge, that is, can not be completely depleted by the solar energy converting electrical energy.Therefore the automatic decision Switching power of this first embodiment Opportunity can also be further designed to when the solar energy converting electrical energy voltage not up to one output threshold value when, the control circuit 15 The solar energy module 11 is controlled to stop providing the solar energy converting electrical energy；If namely have lighting demand, the control circuit 15 There is provided the battery power by the battery pack 141 by control gives the light emitting module 12 to be lighted.

On the other hand, because the battery pack 141 is a kind of consumptive material, just need to be replaced when battery-depletion therein Change.Therefore the lighting device 100 can also include a transport module 18, and the control circuit 15 can monitor the battery power Voltage.For example, the transport module 18 can be a Wi-Fi specifications, a bluetooth compliant or WLAN transport module, or For the mobile telecommunications module of a 3G/4G/5G etc. long haul communication, even for using a line telecommunications communication module, also Can.

Wherein, (battery power will exhaust), control electricity when the voltage of the battery power is not up to an output threshold value Road 15 will be sent by the transport module 18 warning message to a rear end monitoring interface (can via wire/wireless internet or LAN, or wire/wireless telecommunications network) so that therefore control the user of the rear end monitoring interface can learn this The state of battery pack 141 simultaneously goes to replacement.

The implementation explanation of energy-saving solar lighting device of the present utility model is now carried out with a second embodiment.Refer to Fig. 3, is the function block schematic diagram of an energy-saving solar lighting device 100 '.The energy-saving solar of this second embodiment shines The energy-saving solar lighting device 100 of bright device 100 ' and first embodiment functionally can be identical in appearance design or element Or it is close, and both concepts in the opportunity of automatic decision Switching power also can be identical, both difference is only that judgement is adapted to Illumination opportunity technology.It is noted that function phase with the element of (or close) is illustrated with being identically numbered to do.

As shown in figure 3, the lighting device 100 ' of this second embodiment also includes an optical inductor 19, and the optical inductor 19 be to carry out environment photoinduction.Similarly, the optical inductor 19 the control circuit 15 is also electrically connected to through circuit and by Control.The set location of the optical inductor 19 can be located at one side of the motion sensor 13, and may be disposed at the bottom surface of the body In favor of carrying out environment photoinduction in the range of a photoinduction.The optical inductor 19 is one with light-sensitive element (such as photosensitive crystal Pipe, optical diode, photo resistance etc.) inductor, the lightwave signal sensed can be converted into electric signal, and then provide It is further to judge with utilizing.In other words, this second embodiment judges the technology on the illumination opportunity being adapted to except including carrying out Outside action induction, in addition to environment photoinduction.

Due to when the ambient light in the range of described photoinduction is brighter (such as daytime) represent it is bright and clear and without offer The demand of illumination, therefore, the purpose for saving the energy can be more effectively achieved to ask, and only design (such as late when ambient light is dark On) just there is the necessity for making the light emitting module 12 luminous.Specifically, the meeting after environment photoinduction is proceeded by of optical inductor 19 A light sensation induction signal is accordingly produced, and the control circuit 15 will be judged according to the light sensation induction signal.In addition, this second reality Apply example and also consider that the motion sensor 13 carries out the action induction signal produced by action induction, and the control circuit 15 in the lump Also it will be judged according to the action induction signal.When the ambient light of the photoinduction signal reaction in the range of the photoinduction does not reach When one luminous intensity threshold value and the action induction signal reaction are showed in the range of the action induction with action change situation, The control circuit 15 controls the light emitting module 12 to light；When the ambient light of the photoinduction signal reaction in the range of the photoinduction reaches Arrive or during more than the luminous intensity threshold value, then regardless of whether there is action change situation, the control circuit 15 all controls the luminous mould Block 12 does not light.

The photoinduction scope in this second embodiment can be overlapped with the action induction scope, or can represent and be oriented to Same scope.But in actual operation, the size of photoinduction scope and action induction scope is not quite similar, usual light sensation Answer scope larger and action induction scope is smaller.To seek preferable inductive effects, preferably design method is by action induction model Enclose and be contained among photoinduction scope.Certainly, the size of this two induction range also can separately do different set according to user's demand Put.

Moreover, about, for the set of circumstances on the illumination opportunity for judging to be adapted to, being referred to as follows in above-mentioned second embodiment It is shown；

Wherein, tick in form " V " be illustrated as the light emitting module 12 is lighted, and cross " X " be illustrated as make the hair Optical module 12 does not light.Therefore understanding to have only in ambient light dark (not reaching luminous intensity threshold value) and having action change situation When, just design makes the light emitting module 12 light.And in ambient light is dark but during attonity change situation, is then still designed as no illumination Necessity.Furthermore, when ambient light brighter (meeting or exceeding luminous intensity threshold value), then because it is bright and clear thus in spite of There is action change situation, be all designed as necessity of no illumination.

From the above, for action induction and the characteristic of environment photoinduction, the change of ambient light is about with day and night changing It is consistent, but otherwise personnel in induction range or the action of object with being random.Therefore, before two kinds of induction technologies are combined Put, in addition to it can design this two kinds of induction modes while carrying out, also can further design the priority of this two kinds of induction modes Sequentially, that is, after first carrying out ambient light sensing action induction is carried out again.

Specifically, it can design when the ambient light of the photoinduction signal reaction in the range of the photoinduction does not reach the luminous intensity During threshold value, the control circuit 15 just controls the motion sensor 13 to carry out action induction；When the photoinduction signal reaction is in this When ambient light in the range of photoinduction meets or exceeds the luminous intensity threshold value, the control circuit 15 then controls the motion sensor 13 stop action induction.Reason is, if daytime is bright and clear, has no the necessity for providing illumination, therefore can stop this and moves Make the running of inductor 13 or avoid the continued operation motion sensor 13.In this way, effect of energy-conservation will be more notable.

The utility model can also do other changes according to the concept disclosed by above-mentioned first embodiment and second embodiment Change and implement.For example, lighting device to produce the light emitting module of illumination can be set to two groups or more, and each hair The illumination region of optical module institute direction can be different each other or overlapping.Then, control circuit can be according to motion sensor in dynamic Make the action change situation sensed in the specific corresponding region in induction range, and control by a wherein corresponding light emitting module Light to produce illumination.

In addition, the motion sensor 13 in foregoing embodiments using active type micro-wave (Microwave) inductor come During implementation, it will usually which the situation for facing more power consumption occurs, therefore being the consumption of further reduction electric energy, the utility model is also Some power saving skills and the set of circumstances on foregoing illumination opportunity of arranging in pairs or groups are can pass through, and when can effectively extend the use of lighting device Between.

For example, as shown in figure 4, it is applied to the active type micro-wave (Microwave) disclosed by the utility model The implementation conceptual schematic view of a microwave module 131 in inductor；In wherein, the microwave module 131 at least includes a microwave day The microwave signal magnification circuit plate 1312 of line circuit board 1311 and one, and the microwave signal magnification circuit plate 1312 and the microwave day Line circuit board 1311 is after being mutually coupled through one first electrically connected port 13121, then through one second electrically connected port 13122 And it is coupled to the control circuit 15.As long as consequently, it is possible in second electrically connected port 13122, a reserved power saving pin (is schemed in advance It is not shown), you can the microwave module 131 is entered a battery saving mode；That is, can be dark in ambient light (i.e. not up to luminous intensity door Threshold value) just carry out active microwave detecting, and the detecting frequency of adjustable active microwave detecting, and (reach ambient light is brighter It is more than luminous intensity threshold value), stop foregoing active microwave detecting.

Certainly, the embodiment of above-mentioned battery saving mode and not exclusive, and in the Anneta module of this in the utility model 1311 Column formula antenna (as shown in Figure 4), can also be changed and replace with plane formula printed antenna (not shown), and not as Limit.

Certainly, all it is to use motion sensor 13 as inductor meanses in each embodiment of foregoing the utility model, but this Technical field those of ordinary skill, can also use other inductor meanses instead, for example, active/passive type acoustic wave or temperature The various inductor of inductor etc. is implemented according to this, without being limited with above-described embodiment.

For example, in each embodiment of foregoing the utility model, more may include to answer a variation of ambient temperature and produce one The temperature inductor (not shown) of temperature sensor signal, and the temperature inductor is electrically connected to the control circuit 15, so that should Control circuit 15 should temperature sensor signal be in one cross the condition of high temperature or one cross low-temperature condition, control the solar energy module 11 to stop Only providing solar energy converting electrical energy and give light emitting module 12, or control the battery pack 141 stopping to provide the battery power gives this to light Module 12, to protect and extend the service life of the solar energy module 11 and the battery pack 141.

In summary, the energy-saving solar lighting device that the utility model is proposed with the solar energy except changing electricity It can be given outside the light emitting module is illuminated, also used including action with providing with two kinds of independent power supplys of the battery power Various inductor meanses or more upper ambient light induction technology including induction technology, to control the illumination of the light emitting module appositely Whether；So so that the lighting device proposed can more effectively reach the purpose for saving the energy.

It is event, the utility model can effectively solve the relevant issues proposed in prior art, and have successfully been achieved this reality With new main purpose.

Although the utility model is disclosed above with embodiment, so it is not limited to the utility model.This practicality is new Those of ordinary skill in type art, is not departing from spirit and scope of the present utility model, various when that can make Change and retouching.Therefore, protection domain of the present utility model is worked as and is defined depending on its as defined in claim.

Claims (19)

1. a kind of energy-saving solar lighting device, it is characterised in that including：

Light emitting module, illumination is produced to luminous；

Solar energy module, to receive luminous energy in outdoor environment and be changed, and then provides a solar energy converting electrical energy；

Battery tray, the battery pack that a battery power is produced to provide is assembled；

Inductor, to be sensed and produced an induced signal；And

Circuit is controlled, to control to provide the solar energy converting electrical energy by the solar energy module or provide the battery by the battery pack Electric energy gives the light emitting module, and is judged according to the induced signal, and then controls the light emitting module luminous or do not light.

2. energy-saving solar lighting device as claimed in claim 1, it is characterised in that the inductor acts for a passive type Any one of inductor and an active motion sensor；Wherein, the passive type motion sensor is passive type human body infrared Line inductor, and the active motion sensor is active microwave sensor.

3. energy-saving solar lighting device as claimed in claim 2, it is characterised in that the active microwave sensor is at least Including a microwave module with battery saving mode.

4. energy-saving solar lighting device as claimed in claim 1, it is characterised in that the inductor is to be acted Sense and produce the motion sensor of an action induction signal, and when the action induction signal reaction is in the range of an action induction When showing with action change situation, the control circuit controls the light emitting module to light；When the action induction signal reaction in When being showed in the range of the action induction without action change situation, the control circuit controls the light emitting module not light.

5. energy-saving solar lighting device as claimed in claim 1, it is characterised in that the control circuit is in the light emitting module With one first luminous intensity it is luminous when, control the light emitting module first to turn with one second luminous intensity it is luminous after change into do not light again, and should Second luminous intensity is less than first luminous intensity.

6. energy-saving solar lighting device as claimed in claim 1, it is characterised in that the energy-saving solar lighting device Also include optical inductor, to carry out environment photoinduction and produce a light sensation induction signal, and the control circuit is used to according to the light Induced signal is judged, and then is controlled the light emitting module luminous or do not lighted.

7. energy-saving solar lighting device as claimed in claim 6, it is characterised in that the inductor is to be acted Sense and produce the motion sensor of an action induction signal, and when the ring of the photoinduction signal reaction in the range of a photoinduction Border light does not show up to a luminous intensity threshold value and the action induction signal reaction in the range of an action induction to be become with action When changing situation, the control circuit controls the light emitting module to light；When the ring of the photoinduction signal reaction in the range of the photoinduction When border light meets or exceeds the luminous intensity threshold value, the control circuit controls the light emitting module not light.

8. energy-saving solar lighting device as claimed in claim 6, it is characterised in that the inductor is to be acted Sense and produce the motion sensor of an action induction signal, and when the ring of the photoinduction signal reaction in the range of a photoinduction When border light is not up to a luminous intensity threshold value, the control circuit controls the motion sensor to carry out action induction；When photoinduction letter When number ambient light reacted in the range of the photoinduction meets or exceeds the luminous intensity threshold value, the control circuit controls the action Inductor stops action induction.

9. energy-saving solar lighting device as claimed in claim 1, it is characterised in that control circuit control is preferential by this Solar energy module provides the solar energy converting electrical energy and gives the light emitting module.

10. energy-saving solar lighting device as claimed in claim 1, it is characterised in that the control circuit is according to the sun Can converting electrical energy voltage and control to provide the solar energy converting electrical energy by the solar energy module or provide the electricity by the battery pack Pond electric energy gives the light emitting module.

11. energy-saving solar lighting device as claimed in claim 1, it is characterised in that when the solar energy converting electrical energy When voltage is not up to an output threshold value, the control circuit controls the solar energy module to stop providing the solar energy converting electrical energy.

12. energy-saving solar lighting device as claimed in claim 1, it is characterised in that the light emitting module include one or Multiple light emitting diodes.

13. energy-saving solar lighting device as claimed in claim 1, it is characterised in that energy-saving solar illumination dress Putting also includes transport module, and when the voltage of the battery power is not up to an output threshold value, the control circuit is by the transmission Module sends a warning message to a rear end monitoring interface.

14. a kind of energy-saving solar lighting device, it is characterised in that including：

Light emitting module, illumination is produced to luminous；

Solar energy module, to receive luminous energy in outdoor environment and be changed, and then provides a solar energy converting electrical energy；

Preset-type electric energy supplying module；

Inductor, to be sensed and produced an induced signal；And

Circuit is controlled, to control to provide the solar energy converting electrical energy by the solar energy module or supply mould by the preset-type electric energy Block provides a preset-type electric energy and gives the light emitting module, and is judged according to the induced signal, and then controls the light emitting module to send out Light does not light.

15. energy-saving solar lighting device as claimed in claim 14, it is characterised in that the solar energy module at least includes One solar panels and a solar cell.

16. energy-saving solar lighting device as claimed in claim 14, it is characterised in that the preset-type electric energy supplying module At least include a battery tray and produce a battery power and be assembled in a battery pack of the battery tray.

17. energy-saving solar lighting device as claimed in claim 14, it is characterised in that the inductor is dynamic for a passive type Make any one of inductor and an active motion sensor；Wherein, the passive type motion sensor is that passive type human body is red Outside line inductor, and the active motion sensor is active microwave sensor.

18. energy-saving solar lighting device as claimed in claim 17, it is characterised in that the active microwave sensor is extremely Include a microwave module with battery saving mode less.

19. energy-saving solar lighting device as claimed in claim 14, it is characterised in that the inductor is to Ying Yihuan Border temperature change and the temperature inductor for producing a temperature sensor signal, and the control circuit should temperature sensor signal be in one The condition of high temperature or a mistake low-temperature condition are crossed, controls solar energy module stopping to provide the solar energy converting electrical energy and gives the luminous mould Block, or control the preset-type electric energy supplying module stopping offer preset-type electric energy to give the light emitting module.