CN201615434U - Sensing solar corridor led lighting device - Google Patents

Sensing solar corridor led lighting device Download PDF

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Publication number
CN201615434U
CN201615434U CN 201020114550 CN201020114550U CN201615434U CN 201615434 U CN201615434 U CN 201615434U CN 201020114550 CN201020114550 CN 201020114550 CN 201020114550 U CN201020114550 U CN 201020114550U CN 201615434 U CN201615434 U CN 201615434U
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solar
led lighting
battery
lighting device
corridor
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CN 201020114550
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Chinese (zh)
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管建鸣
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苏州东大光普科技有限公司;管建鸣
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/70Hybrid systems
    • Y02B10/72Uninterruptible or back-up power supplies integrating renewable energies
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B20/00Energy efficient lighting technologies
    • Y02B20/40Control techniques providing energy savings

Abstract

本实用新型公开了一种太阳能楼道感应LED照明装置,包括LED照明装置、太阳能发电装置、分别与所述LED照明装置和太阳能发电装置形成供电回路和第一充电回路的蓄电池以及检测控制单元,所述太阳能楼道感应LED照明装置还包括跨接于所述太阳能电池发电装置正负极两端的第一开关器件、以及与LED照明装置串联的第二开关器件。 The present invention discloses a solar sensor corridor LED lighting apparatus comprising LED lighting apparatus, the solar power generating device, and a power supply circuit are formed of a battery charging circuit and a first control unit and the detecting means and solar power LED lighting apparatus, the said corridor solar LED lighting device further comprises a sensor connected across the positive and negative electrodes of the solar cell power plant across the first switching device, and the LED illumination apparatus of the second switching device connected in series. 本实用新型具有方便智能、节能环保等优点,并且在整个电路中设置了多重保护功能,使得装置使用起来更安全、稳定、寿命更长。 The present invention is convenient intelligent, environmental protection and other advantages and features multiple protection is provided throughout the circuit, so that the device is safer to use, stable, longer life.

Description

太阳能楼道感应LED照明装置 Solar LED lighting device sensing corridor

技术领域 FIELD

[0001] 本实用新型涉及一种太阳能楼道感应LED照明装置背景技术 [0001] The present invention relates to a solar LED lighting device sensing corridor BACKGROUND

[0002] 据统计,照明消耗约占整个电力消耗的20%左右,降低照明用电是节省能源的重要途径。 [0002] According to statistics, lighting consumes about 20% of the power consumption, reduce electricity for lighting is an important way to save energy. 太阳能虽然是世界一切能源的来源,但由于受气候和季节影响,使得照射到地球表面的太阳能非常分散和不稳定,所以直接利用太阳能并不容易。 Although solar energy is the source of all energy in the world, but due to weather and seasonal effects, so that the irradiation of solar energy to the Earth's surface is very fragmented and unstable, so the direct use of solar energy is not easy. 并且基于目前的技术和成本,太阳能发电功率一般比较小,仅用于小功率负载。 And based on the current technology and the cost of solar power generation is generally small, only a small power load. 这就要求我们在使用太阳能作为照明电源时必须考虑以下几个要素:1、光源的输入功率要小;2、光源的发光效率要高;3、系统能量转化效率要高。 This requires that we use solar power as an illumination must consider the following elements: an input power source is smaller; 2, light emission efficiency is higher; 3, system energy conversion efficiency is high. 随着LED照明技术的迅猛发展,LED照明正好适合了太阳能照明系统中的应用。 With the rapid development of technology, LED lighting, LED lighting just right for the application of solar lighting system. 因此LED配合太阳能电池板和蓄电池组成太阳能LED照明系统有着非常明显的优势。 The LED with solar panels and solar battery composed of a LED lighting system has a very distinct advantage. 更为重要的是:太阳能光伏发电技术与LED照明完美结合在于两者同为直流电、电压低并能互相匹配。 More importantly: solar photovoltaic technology in that LED illumination both with the perfect combination of direct current, low voltage and can be matched to each other. 两者的结合不需要变频器将太阳能电池产生的直流电转化为交流电,因而大大提高了整个照明系统的效率。 The drive does not require a combination of both solar cell generated DC into an alternating current, thus greatly improving the efficiency of the entire lighting system.

发明内容 SUMMARY

[0003] 本实用新型目的是:提供一种太阳能楼道感应LED照明装置,其具有方便智能、节能环保等优点,并且在整个电路中设置了多重保护功能,使得装置使用起来更安全、稳定、 寿命更长。 [0003] The object of the present invention are: to provide a solar sensor corridor LED lighting device having a smart convenience, energy saving and other advantages and features multiple protection provided throughout the circuit, so that the device is safer to use, stable, lifetime longer.

[0004] 本实用新型的技术方案是:一种太阳能楼道感应LED照明装置,包括LED照明装置、太阳能发电装置、分别与所述LED照明装置和太阳能发电装置形成供电回路和第一充电回路的蓄电池以及检测控制单元,检测控制单元检测到蓄电池的电压不足时,蓄电池充电,所述太阳能楼道感应LED照明装置还包括跨接于所述太阳能电池发电装置正负极两端的第一开关器件、以及与LED照明装置串联的第二开关器件。 [0004] The technical solution of the present invention is: a solar sensor corridor LED lighting apparatus comprising LED lighting apparatus, the solar power generating device, and a power supply circuit are formed a first charging circuit with a battery and the LED illumination apparatus photovoltaic device and a detection control unit, detection control unit detects the voltage of the battery to insufficient battery charge, the sensing corridor solar LED lighting device further comprises a solar cell is connected across the positive and negative power generating means across the first switching device, and a the LED lighting device in series with a second switching device. 当检测控制单元检测到蓄电池两端的电压大于设定的最大电压时,检测控制单元控制第一开关器件闭合导通,此时太阳能电池的输出电流直接流经第一开关器件旁路释放,不再对蓄电池充电,起到对蓄电池“过压保护”的作用。 When the detection control unit detects the maximum voltage across the battery is greater than the setting, the detection control unit controls the first switching device is closed is turned on, then the output current of the solar cell directly pass through the first switching device is released, no longer charge the battery, the battery acts as "overvoltage" the. 第二开关器件是蓄电池的放电开关,当检测控制单元检测到蓄电池两端的电压小于设定的过放电压时,所述第二开关器件断开,对蓄电池起到“过放保护”的作用;当检测控制单元检测到流经第二开关器件的电流大于设定电流,即过载出现电流大于额定电流或短路时,所述第二开关器件断开,起到“过载保护”和“短路保护”的作用。 The second switching device is a battery discharge switch, when the detection control unit detects the voltage across the over-discharge of the battery is less than a set time, the second switching device is turned off, the battery play "over-discharge protection" effect; when the detection control unit detects a current flowing through the second switching device is greater than the set current, i.e. when the overload or short circuit current is greater than the rated current, the second switching device is turned off, play "overload protection" and "short-circuit protection" role.

[0005] 进一步的,在上述太阳能楼道感应LED照明装置中,所述太阳能发电装置与蓄电池组成的第一充电回路上设有第一二极管,所述第一二极管的正负极分别与太阳能发电装置和蓄电池的正极连接,使得只有太阳能发电装置正极端的电压大于蓄电池正极端电压时,该第一充电回路才导通。 [0005] Further, in the above-described solar sensor corridor LED lighting apparatus, the first loop charging the battery of the solar power generating device consisting of a first diode, the cathode of the first diode are respectively positive the solar power generating device connected to the battery and the positive electrode, so that only the positive terminal of the solar power generating device voltage greater than the positive terminal of the battery voltage, the first charging circuit was turned on. 利用二极管的单向导电性阻止无日照时蓄电池通过太阳电池方阵放电。 Using one-way conductive diode prevents discharging of the battery by the solar cell matrix without sunshine.

[0006] 进一步的,在上述太阳能楼道感应LED照明装置中,所述蓄电池的正负极两端反向跨接有第二二极管,即第二二极管的正极接蓄电池设定的负极,第二二极管的负极接蓄电池设定的正极。 [0006] Further, in the solar lighting apparatus LED corridor induction, positive and negative ends of the battery and a second diode connected across the reverse, i.e. the cathode of the second diode a negative electrode of battery set the negative electrode of the second diode connected to a positive electrode of the battery set. 第二二极管是防接反二极管,当蓄电池极性接反时,第二二极管导通,使蓄电池通过第二二极管放电,产生的大电流会使保险丝烧断,起到对蓄电池“防接反保护” 的作用。 The second anti-reverse diode is a diode, when the battery polarity is reversed, the second diode conduction, the battery is discharged through the second diode, generating a large current causes the fuse blows, to play battery "anti-reversal protection" role.

[0007] 进一步的,在上述太阳能楼道感应LED照明装置中,所述检测控制单元包括光敏传感装置。 [0007] Further, in the above-described solar sensor corridor LED lighting device, the detection control unit comprises a photosensitive sensing device. 光敏传感装置用来检测阳光的照度,当阳光的照度大于某一设定值时,检测控制单元控制整个LED照明装置不工作,当阳光的照度小于该设定值时,即为光线昏暗的阴天或晚上时,LED照明装置才进入工作状态。 Photosensitive means for detecting light sensing illuminance, when the sunlight illuminance is greater than a set value, the detection control unit controls the LED lighting device is not operating, when the sunlight illuminance is less than the set value, that is dimly lit cloudy day or night, LED illumination apparatus into operation only. 另外,光敏传感装置感应到的照度信息还可以用来判断是否由太阳能发电装置来给蓄电池充电。 Further, the photosensitive sensing means sensed illuminance information may also be used to determine whether to charge the battery by the solar generator.

[0008] 进一步的,在上述太阳能楼道感应LED照明装置中,所述蓄电池还与市电形成第二充电回路。 [0008] Further, in the above-described solar sensor corridor LED lighting device, the battery charging circuit is also formed with a second mains. 当检测到蓄电池两端的电压小于设定最小电压、并且阳光的照度大于设定值时,检测控制单元控制太阳能发电装置给蓄电池充电;当检测控制单元的光敏传感装置检测到的照度小于设定值、并且蓄电池两端的电压小于设定最小电压时,所述检测控制单元控制将第一充电回路切换到第二充电回路,即由太阳能发电装置给蓄电池充电切换为由市电供蓄电池充电。 When the voltage across the battery is less than the set minimum voltage, and the illumination light than a set value is detected, the detection control unit controls the solar power generator to charge the battery; sensing means for detecting when the photosensitive control means detected illuminance is less than the set value, and the voltage across the battery is less than the set minimum voltage, the detection control unit controls the first switch to the second charging circuit charging circuit, i.e., the solar power generating device to recharge the battery charge for switching the mains. 这样,在连续阴雨天(一般大于5天)时可由市电自动补充供电,市电作为太阳能的辅助电源使得LED照明装置能够可靠并不间断地满足楼宇楼道照明和楼宇应急照明的需要。 Thus, when rainy days (typically greater than 5 days) can automatically add the municipal supply, utility power as an auxiliary power of a solar lighting apparatus so that the LED can be continuously and reliably meet the needs of buildings and building corridor lighting, emergency lighting.

[0009] 进一步的,在上述太阳能楼道感应LED照明装置中,所述LED照明装置为热释红外感应LED照明装置,其包括热释红外感应开关、延时装置和LED光源,当热释红外感应开关感应到设定的感应区域内有人进入时,开关自动闭合,LED光源点亮,延时装置延时一段时间后,开关自动断开,LED光源熄灭。 [0009] Further, in the above-described solar sensor corridor LED lighting device, the LED illumination device is a pyroelectric infrared sensor LED illumination apparatus, comprising a pyroelectric infrared sensor switch, delay means and an LED light source, when the pyroelectric infrared sensor switch senses when someone enters the sensitive region of the set, is switched on automatically, LED light source is turned, after a period of delay means delay, automatically disconnect switch, LED light source is off. LED照明装置包括恒流驱动电路,使得流过LED光源的电流不随蓄电池的电压变化,保持LED光源发光的稳定性。 The LED lighting device includes a constant current driver circuit such that the voltage variation of the current flowing through the LED light source does not vary with the battery, to maintain the stability of the LED light source to emit light.

[0010] 进一步的,在上述太阳能楼道感应LED照明装置中,所述太阳能发电装置设有太阳能自动跟踪系统,使太阳能发电装置的电池板始终与太阳光保持垂直,提高接受太阳光的效率。 [0010] Further, in the above-described solar sensor corridor LED lighting device, the solar power generator is provided with a solar tracking system, so that the solar generator panels remain perpendicular to the sun, to improve the efficiency of receiving sunlight.

[0011] 本实用新型的优点是: [0011] The advantages of the present invention are:

[0012] 1.本实用新型具有太阳能电池板蓄电池过充、欠压和防反充保护功能,使得电路 [0012] 1. The present invention has a solar panel battery overcharge, reverse charge and under-voltage protection, so that the circuit

安全稳定。 safe and stable.

[0013] 2.本实用新型全自动智能控制,具有自动切换到市电充电功能、光敏自动感应充电功能、光敏自动感应开关功能、人体红外线感应开关、延时功能和太阳能自动跟踪功能, 使用方便。 [0013] 2. The present invention automatic intelligent control, with automatic switching to the electricity charging, inductive charging the photosensitive automatic function, auto-sensing light sensitive switching function, human infrared sensor switch, delay function and automatic solar tracking function, easy to use .

[0014] 3.本实用新型投资成本低:由于使用的LED光源功耗低加之又是间隙式照明,所以对太阳能电池板和蓄电池容量要求不高,减少了投资成本。 [0014] 3. The present invention is a low investment cost: since the use of low-power LED light source is coupled with an illumination gap type, so the solar panels and the battery capacity is less demanding, reducing investment costs.

[0015] 4.本实用新型采用直流电供电系统,无需逆变电路,减少了系统能量损耗。 [0015] 4. The present invention uses the DC power supply system, without the inverter circuit, the system reduces the energy loss.

[0016] 5.本实用新型由于应用于间歇式照明场合,避免了LED使用过程中散热的问题。 [0016] The present invention due to the applied intermittent lighting situations, to avoid problems of heat dissipation during use LED.

[0017] 6.本实用新型节电和环保效果非常显著、安装维护简便:一次性安装投入,无需日后电费开支,也不用专人管理和控制。 [0017] 6. The utility model energy-saving and environmental protection effect is very significant, installation and maintenance is simple: install a one-time investment, no future electricity costs, do not have special management and control. 附图说明 BRIEF DESCRIPTION

[0018] 下面结合附图及实施例对本实用新型作进一步描述: [0018] accompanying drawings and the following examples further describe embodiments of the present invention as:

[0019] 图1为本实用新型具体实施例在楼宇上应用的示意图; [0019] Figure 1 is a schematic diagram of the invention on the specific application of the embodiment of the building;

[0020] 图2为本实用新型具体实施例的电路原理框图; [0020] FIG. 2 is schematic block diagram of a circuit embodiment of the present invention DETAILED DESCRIPTION;

[0021] 图3为本实用新型具体实施例的电路原理图。 [0021] Fig 3 a schematic circuit diagram of the embodiment of the present invention specific embodiments.

[0022] 其中:1LED照明装置;11恒流驱动电路;2太阳能发电装置;3蓄电池;4检测控制单元;5市电;K1第一开关器件;K2第二开关器件;D1第一二极管;D2第二二极管;Bx保险丝。 [0022] wherein: 1LED lighting means; constant current driving circuit 11; 2 solar power generating device; third battery; detection control unit 4; 5 mains; Kl first switching device; K2 second switching device; a first diode Dl ; D2 of the second diode; Bx fuse.

具体实施方式 Detailed ways

[0023] 实施例:如图1至图3所示,一种太阳能楼道感应LED(发光二极管)照明装置,包括LED照明装置1、太阳能发电装置2、分别与所述LED照明装置1和太阳能发电装置2形成供电回路和第一充电回路的蓄电池3以及检测控制单元4,还包括跨接于所述太阳能电池发电装置2正负极两端的第一开关器件K1、以及与LED照明装置1串联的第二开关器件K2,当检测控制单元4检测到蓄电池3两端的电压大于设定的最大电压时,检测控制单元4 控制第一开关器件K1闭合导通;当检测控制单元4检测到蓄电池3两端的电压小于设定的过放电压、或检测到流经第二开关器件K2的电流大于设定电流时,所述第二开关器件K2断开。 [0023] Example: FIGS. 1 to 3, a solar sensor corridor LED (light emitting diode) lighting devices, including LED illumination apparatus 1, a solar power generation apparatus 2, respectively, with the power generation and solar LED illumination device 1 forming apparatus 2 of the first power supply circuit and a battery charging circuit 3 and a detection control unit 4, further comprising a solar cell connected across said first switching means Kl power generating device 2 at both ends of the positive and negative electrodes, and the LED illumination device 1 in series a second switching device K2, when the detection control unit 4 detects the maximum voltage across the battery 3 is greater than the setting, the detection control unit controls the first switching device 4 is turned K1 is closed; detecting when the control unit 4 detects the two battery 3 when the over-discharge voltage is less than the set end voltage or current is detected flowing through the second switching device is greater than the set current K2, K2 off the second switching device.

[0024] 所述太阳能发电装置2与蓄电池3组成的第一充电回路上设有第一二极管D1,所述第一二极管D1的正负极分别与太阳能发电装置2和蓄电池3的正极连接。 [0024] The first solar power generator 2 and the battery 3 a charging loop consisting of a first diode D1, positive and negative, respectively solar power generating device 2 and the battery 3 of the first diode D1 connected to the positive.

[0025] 所述蓄电池3的正负极两端反向跨接有第二二极管D2,当蓄电池3的正负极接反时,第二二极管D2就导通,则保险丝Bx就烧毁断开,以保护电路。 [0025] The positive and negative ends of the battery 3 has an inverted jumper a second diode D2, when the battery positive and negative reversed. 3, the second diode D2 is turned on, the fuse will Bx burned off to protect the circuit.

[0026] 所述检测控制单元4包括光敏传感装置。 [0026] The detection control unit 4 comprises a photosensitive sensing device.

[0027] 所述蓄电池3还与市电5形成第二充电回路,当检测控制单元4的光敏传感装置检测到的照度小于设定值、并且蓄电池3两端的电压小于设定最小电压时,所述检测控制单元4控制将第一充电回路切换到第二充电回路由市电供蓄电池充电。 [0027] The storage battery 3 is further formed with a second electricity charging circuit 5, the detection control unit when the light-sensitive sensor device 4 detected illuminance is less than the set value, and the battery voltage is less than 3 at both ends of the set minimum voltage, the detection control unit 4 controls the first switch to the second charging circuit for charging the battery charging circuit mains.

[0028] 所述LED照明装置1为热释红外感应LED照明装置,其通过恒流驱动电路11 (如驱动器DP-12M)驱动。 [0028] The LED illumination device 1 is a pyroelectric infrared sensor LED illumination device (such as drive DP-12M) driven by a constant current drive circuit 11.

[0029] 所述太阳能发电装置2设有太阳能自动跟踪系统。 [0029] The solar power generating device 2 is provided with a solar tracking system.

[0030] 有阳光时,即光敏传感装置感应到的光照大于设定值时,太阳能发电装置(太阳能电池板)通过检测控制单元给蓄电池充电,这时检测控制单元控制LED照明装置始终关闭。 When [0030] When the sun, i.e., light-sensitive sensor means sensitive to light than a set value, the solar power generation apparatus (solar panel) to recharge the battery by the detection control means, when the detection control unit controls the LED lighting device is always off. 电池充满后,检测控制单元停止充电。 After the battery is fully charged, the detection control unit stops charging. 没有阳光时,即光敏传感装置感应到的光照小于设定值时,检测控制单元控制LED照明装置处于当热释红外感应开关闭合时就导通点亮的状态。 When there is no sunlight, i.e., light-sensitive sensor means sensitive to light than the set value, the detection control unit controls the LED illumination apparatus in a pyroelectric infrared sensor when the switch is closed the lighting state is turned on. 当热释红外感应开关的感应装置接受到人体红外线感应时,LED光源自动点亮。 When the sensing device pyroelectric infrared sensor switch receives human infrared sensors, LED light source is automatically turned on. 如果连续照明使电池电压低至一设定值时,DP-12M内部的低压保护功能使灯自动关闭,也能起到保护电池不会过放电的作用,并在连续阴雨天且照度小于设定值时,切换市电充电。 If a continuous lighting up the battery voltage to a set value, the internal voltage protection function of DP-12M automatically turn off the lamp, can also serve to protect the battery is not over-discharged, and rainy days and illuminance is less than the set when the value of the switching mains charger. 因此,这是一种无人看护的自动太阳能照明系统。 Accordingly, it is an automatic solar lighting system unattended.

[0031] 驱动器DP-12M置于LED照明装置1内部制成一体化灯具,太阳能发电装置2、控制器和蓄电池置于屋顶集中控制(如图1),其中控制器包括检测控制单元4、第一和第二开关器件以及第一和第二二极管,蓄电池可带动多个内置红外线感应的LED照明装置,太阳能发电装置、控制器和蓄电池要依据LED灯或总负载来确定大小和容量。 [0031] DP-12M drives the LED lighting device is placed is made of an integration of the internal lamp 2, and the battery controller roof solar power generating device disposed central control (FIG. 1), wherein the controller comprises a detection control unit 4, and a second switching device and first and second diodes, the battery can drive a plurality of infrared sensor built-in LED illumination apparatus, a solar power generating device, the controller and the battery size and capacity to be determined based on an LED lamp or the total load.

[0032] 本实用新型具有方便智能、节能环保等优点,并且在整个电路中设置了多重保护 [0032] The present invention has the intelligence to facilitate, energy saving, etc., and protection is provided throughout the circuit of multiple

功能,使得装置使用起来更安全、稳定、寿命更长。 Function, so that the device is safer to use, stable, longer life.

Claims (7)

  1. 一种太阳能楼道感应LED照明装置,包括LED照明装置(1)、太阳能发电装置(2)、分别与所述LED照明装置(1)和太阳能发电装置(2)形成供电回路和第一充电回路的蓄电池(3)以及检测控制单元(4),其特征在于:还包括跨接于所述太阳能电池发电装置(2)正负极两端的第一开关器件(K1)、以及与LED照明装置(1)串联的第二开关器件(K2),当检测控制单元(4)检测到蓄电池(3)两端的电压大于设定的最大电压时,检测控制单元(4)控制第一开关器件(K1)闭合导通;当检测控制单元(4)检测到蓄电池(3)两端的电压小于设定的过放电压、或检测到流经第二开关器件(K2)的电流大于设定电流时,所述第二开关器件(K2)断开。 A solar corridor induction LED lighting apparatus comprising LED lighting device (1), a solar power generation apparatus (2), are formed a first power supply circuit and charging circuit of the LED illumination apparatus (1) and the solar power generating device (2) a battery (3) and a detection control unit (4), characterized by: further comprising a solar cell connected across said power generating means (2) positive and negative first switching device (K1) across, and the LED illumination apparatus (1 ) a second switching device (K2) connected in series, when the detection control unit (4) detects that the battery (3) is greater than the maximum voltage across the voltage setting, the detection control unit (4) controls the first switching device (K1) is closed conduction; detecting when the control unit (4) detects the battery discharge current over-voltage, or the detected flowing through the second switching device (K2) (3) is less than the voltage across the current setting is set greater than the first second switching means (K2) is disconnected.
  2. 2.根据权利要求1所述的太阳能楼道感应LED照明装置,其特征在于:所述太阳能发电装置(2)与蓄电池(3)组成的第一充电回路上设有第一二极管(D1),所述第一二极管(Dl)的正负极分别与太阳能发电装置(2)和蓄电池(3)的正极连接。 The solar sensor corridor LED lighting device according to claim 1, characterized in that: a first loop consisting of said charging solar power generator (2) and the battery (3) is provided with a first diode (D1) said first diode (Dl) cathode is connected to positive and negative electrodes of the solar power generation apparatus (2) and the battery (3), respectively.
  3. 3.根据权利要求1所述的太阳能楼道感应LED照明装置,其特征在于:所述蓄电池(3) 的正负极两端反向跨接有第二二极管(D2)。 3. Solar sensing corridor LED lighting device according to claim 1, characterized in that: said battery (3) of reverse polarity across both ends of the second diode (D2).
  4. 4.根据权利要求1所述的太阳能楼道感应LED照明装置,其特征在于:所述检测控制单元(4)包括光敏传感装置。 The solar sensor corridor LED lighting device according to claim 1, wherein: said detection control means (4) comprises a photosensitive sensing device.
  5. 5.根据权利要求4所述的太阳能楼道感应LED照明装置,其特征在于:所述蓄电池(3) 还与市电(5)形成第二充电回路,当检测控制单元(4)的光敏传感装置检测到的照度小于设定值、并且蓄电池(3)两端的电压小于设定最小电压时,所述检测控制单元(4)控制将第一充电回路切换到第二充电回路。 5. Solar sensing corridor LED lighting device according to claim 4, characterized in that: said battery (3) further forming a second charging circuit with the mains (5), when the detection control unit (4) a photosensitive sensor means for detecting the illuminance is less than the set value, and the battery (3) is less than the voltage across the set minimum voltage, the detection control unit (4) controls the first switch to the second charging circuit charging circuit.
  6. 6.根据权利要求4所述的太阳能楼道感应LED照明装置,其特征在于:所述LED照明装置(1)为热释红外感应LED照明装置。 The solar sensor corridor LED lighting device according to claim 4, wherein: the LED lighting device (1) is a pyroelectric infrared sensor LED lighting device.
  7. 7.根据权利要求1所述的太阳能楼道感应LED照明装置,其特征在于:所述太阳能发电装置(2)设有太阳能自动跟踪系统。 The solar sensor corridor LED lighting device according to claim 1, wherein: said solar power generator (2) is provided with a solar tracking system.
CN 201020114550 2010-02-09 2010-02-09 Sensing solar corridor led lighting device CN201615434U (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102478195A (en) * 2010-11-29 2012-05-30 陈家德 Light-emitting lamp fitting based on hybrid power supply as well as hybrid power supply device and method thereof
CN102497709A (en) * 2011-12-27 2012-06-13 唐世福 Novel street lamp electricity-saving intelligent control system
CN102545279A (en) * 2010-12-15 2012-07-04 鸿富锦精密工业(深圳)有限公司 Power supply system for data center
CN103250249A (en) * 2010-12-08 2013-08-14 欧司朗光电半导体有限公司 Opto-electronic semiconductor component, method for producing same and use of such a component

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102478195A (en) * 2010-11-29 2012-05-30 陈家德 Light-emitting lamp fitting based on hybrid power supply as well as hybrid power supply device and method thereof
CN103250249A (en) * 2010-12-08 2013-08-14 欧司朗光电半导体有限公司 Opto-electronic semiconductor component, method for producing same and use of such a component
CN103250249B (en) * 2010-12-08 2016-06-15 欧司朗光电半导体有限公司 Application of an optoelectronic semiconductor device, method for manufacturing the device and such devices
CN102545279A (en) * 2010-12-15 2012-07-04 鸿富锦精密工业(深圳)有限公司 Power supply system for data center
CN102497709A (en) * 2011-12-27 2012-06-13 唐世福 Novel street lamp electricity-saving intelligent control system

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