201042197 六、發明說明: - 【發明所屬之技術領域】 本發明係有關於具微光及紅外線感應裝置之led 燈泡結構’尤其針對需具簡易更換及省電及多重安全 性之至内用燈泡’利用可配合現有之室内燈泡燈頭供 給電源,即可作動Q白天斷電(g)晚上無人可啟動30% 之光照,(3)人行至,可啟動1 00%光照,可提高省電功 ❹能及人身安全。亦可在因故停電時,能自動啟動電池 電源回複上述(1)(3)(3)作動,更可在夜間逃難時可將燈 泡取下’作為手電筒用。如需省電以延長照明時間, 可啟用電池開關作閉電或啟動功能,以作為人身安全 之最大保障功能。 【先前技術】 節能減碳是當今國際上最重要的降低地球暖化課 ❹題,各國科技人才不斷利用省電材料來達到節能省電 之功效’舉凡省電燈泡、省電燈具等等各種省電燈泡… 不一而足;並亦有加裝紅外線感應器來作省電措施。 但,除非家庭用燈泡線路加裝紅外線感應器在新 家裝潢時先行設計妥當,否則現有家庭所使用之燈泡 要加裝紅外線感應器時,無可避免會將線路架設在牆 壁上,外觀極為不美,尤以飯店及豪華住家為例。但 如求其美觀’必要時甚至要動用到水電工、水泥工、 3 201042197 油漆工或裝潢工,其所耗費之人力物力遠超過省電之 功效,但上述之省電燈具系統設計除了單獨具有省電 功能外’往往忽略了最重要的人身安全,試想當人在 省電燈具電源因故而關閉情況下,需摸黑找尋手電筒 亦或需在室内加裝緊急照明燈,更甚者在停電時候假 如無上述設備時,根本完全無法看清身處的環境,進 而造成安全性上的顧慮,往往會有意外發生,尤其在 〇危急時更是無法立即找到照明設備而需逃生時會產生 致命性的危險。 基於此,本發明者有鑑於現有之省電燈具及省電 系統及緊急照明系統之缺失,積極尋求解決之道,並 利用其所具有之專業知識與設計製造經驗,經由多方 思考和試驗後’研發出—種確具有較現今省電燈具更201042197 VI. Description of the Invention: - Technical Field of the Invention The present invention relates to a led bulb structure with a low-light and infrared sensing device, particularly for an internal bulb that requires simple replacement, power saving and multiple safety. By using the existing indoor bulb head to supply power, you can activate Q during the day (g) no one can start 30% of the light at night, (3) pedestrians can start 100% of the light, which can improve the power saving function. And personal safety. It can also automatically start the battery when there is a power failure. It can respond to the above (1)(3)(3), and it can be used as a flashlight when it is unable to escape at night. If you need to save power to extend the lighting time, you can enable the battery switch for power-off or start-up function as the biggest guarantee for personal safety. [Prior Art] Energy-saving and carbon reduction is the most important topic in the world to reduce the global warming. The scientific and technological talents of various countries continue to use energy-saving materials to achieve energy-saving and energy-saving effects. Various energy-saving bulbs such as energy-saving bulbs, power-saving lamps, etc. ... not only; but also installed infrared sensors to save power. However, unless the home is equipped with an infrared sensor to install the infrared sensor in the new home, the light bulb used in the existing home should be installed on the wall. The appearance is extremely unattractive. Especially for restaurants and luxury homes. However, if you want to look good, you may even need to use the plumber, cement, 3 201042197 painter or decorator, the labor and material resources far exceed the power saving effect, but the above-mentioned power-saving lighting system design has In addition to the power-saving function, the most important personal safety is often neglected. Imagine that when the power-saving lighting power supply is turned off for some reason, it is necessary to find a flashlight in the dark or install an emergency lighting indoors, even if it is in the event of a power outage. When there is no such equipment, it is completely impossible to see the environment in which it is located, which leads to safety concerns. There are often accidents, especially when it is dangerous, it is impossible to find the lighting equipment immediately and it will be fatal when it needs to escape. Danger. Based on this, the inventors have actively sought solutions in view of the lack of existing power-saving lamps and power-saving systems and emergency lighting systems, and have utilized their expertise and design and manufacturing experience through multiple considerations and experiments. Developed - it does have more energy-saving lamps than today
實用進步且兼顧安全性之具微紋紅外線感應裝置之 LED燈泡結構。 【發明内容】 本發明之主要目的乃為提供-種具微光及紅外線 感應裝置之LED燈泡結構’設計一燈座,其底端燈頭 部設計為-般燈具燈頭,可直接插接於-般燈具插 座’燈座内設有變壓驅動器供驅動LED燈泡用,燈座 -侧邊設有電池室以令充電電池放置再依序裝設一 功能控制基板、及感光斷電器、紅外線偵測啟動器、 4 201042197 基板及燈罩;利用線路由變壓驅動器連結感光斷電器 ' 及微光及紅外線偵測啟動全光功能後,再連結至基 板;當燈泡組插接通電源後,電源由變壓驅動器經由 感光斷電器作白天及夜間之不同啟動,白天閉電晚上 啟動LED微光。而當人員靠近時由紅外線偵測頭透過 廣角集光罩偵測而啟動100%全光。 另將電池電連結於原變壓驅動器線路末端,並構 〇 建一 1C連結,當室内電源正常供電時,1C可讓電池呈 充電狀態。當室内電源因故斷電時,則1C亦啟動電池 電源作上述的LED發光功能之三項系統之功效,另可 在危急時將此燈泡從燈頭拔下,作為移動照明(如同 手電筒)功能,此功能亦可裝置在建物大門内外燈, 車庫外燈、車庫内燈、後門外燈,利用光差作為警戒 及嚇阻之安全功能來提高人身安全性。 〇 【實施方式】 兹有關本發明所設計之具微光及紅外線感應裝置 之LED燈泡結構’其所採用技術手段達成上述目的之 功效易以了解’佐以最佳實施例配合圖式簡單說明如 下: 首先請參閱第一圖所示’本發明為具微光及紅外 線感應裝置之LED燈泡結構,其燈泡組(1 )主要包 含有一燈泡座(1 1 )’該燈泡座(1 1 )之底端為一 201042197 般燈泡燈頭(l l 1),在燈泡座(1 1;)侧邊設有一 内凹之電池室(1 1 2 ),而燈頭(1 1 1 )上方設有 一變壓驅動器(113)且其周圍適當處設有數個固 -定柱(1 1 5 )來固定功能控制基板(1 2 ),燈泡座 (1 1 )另端設有一台階(1 1 4 )以固定LED基板; 一功能控制基板(1 2 ),其下方適當處設有一電 池控電開關(1 2 1 ); Ο 一感光斷電器+紅外線偵測啟動器(1 3 ),其上 方延設有一紅外線偵測頭(1 3 1 ); 一 LED基板(1 4)係為一具中空透孔(1 42) 之基板’其上端面適當處設有數個Led燈泡(1 4 1 ); 一燈罩組(1 5 )在對應偵測頭處構建一圓凸罩 (1 5 2)在每個LED對應處構建一凸鏡(1 5 1 ); 一充電電池(16)係供第二電源; Ο 一電池蓋(17)係為電池室(112)之覆蓋 使用; 本發明之組合方式為將功能控制基板(1 2 )裝 設於燈泡座(1 1 )之固定柱(1 1 5 )上’再將感 光斷電器+紅外線偵測啟動器(1 3 )嵌入燈泡座(1 1)之台階(1 14)内,並令感光斷電器+紅外線偵 測啟動器(1 3 )固設於LED基板(1 4 )下方,使 感光斷電器+紅外線偵測啟動器(1 3 )上方之紅外線 201042197 偵測頭(l 3 1 )恰可經由led基板(i 4 )之透孔 -(1 4 2 )穿透凸出至LED基板(1 4 )上方,再將 燈罩組(15)裝置於LED基板(14)上方,令凸 •鏡(1 5 1 )恰好對應於LED燈泡(SMD) ( 1 4 1 )上 方,圓凸罩(1 5 2)對應於偵測頭上方,再將充電 電池(1 6 )置入燈泡座(工i )之電池室(工工2 ) 並蓋上電池蓋(1 7)即完成本發明之基本組裝(如 0 第二圖所示); 請再參閱第三圖所示,本發明線路係由變壓驅動 器(1 1 3 )經由功能控制面板(i 2)連結至感光 斷電器+紅外線偵測起動器(1 3 )再連結於L E D 基板(1 4);其中另一線路係由變壓驅動器(1 1 3) 連接功月b控制基板(1 2 )至電池控電開關(1 2 1 ) 及電池室(112)即完成本發明之整體組合; Ο 清參閱第四圖所示’本發明之燈泡組合(1)於 實施時係將燈泡座(1 1)之燈頭(1 1 1)插接於 插頭座以連結供電’當感光斷電器+紅外線偵測啟動器 (1 3 )光線充足時則斷電’當偵測到外來光線不足 時會關閉斷電系統並啟動LED燈泡(SMD) ( 1 4 1 )發 光至2 0%〜3 0 %之可視微光,當[ED燈泡(SMD)( 1 4 1 )之微光透過燈罩組(15)上之凸鏡(151) 可讓光線更增亮; 201042197 若紅外線偵測頭(1 3 1 )感應到有人員進入偵 • 測範園時,則會啟動LED燈泡(SMD) ( 1 4 1 )發工〇 0 %之全光,當人員離開紅外線偵測頭(丄3)之 偵測範圍後,則LED燈泡(SMD) ( ]_ 4 1 )會自動回復 為2 0%〜3 0%之可視微光,達到真正節能省電且 具安全性之功效。 請參閱第五圖所示,如果在停電必需移動照明時 〇 情況下,可將燈泡組合(1)拆下,當作手電筒照明 使用;如為延長使用燈泡照明時間,則在等待時間期, 可利用電池開關關閉電池電源。 明再參閱第六圖至第八圖所示,本發明之另一實 施例燈泡組合(1 ”)係利用燈泡座(1 1,,)下方 燈頭(1 1 1”)’該燈頭(1 i )内並設有一變 壓驅動器(113”)並利用線路連結感光斷電器+紅 G 外線偵測啟動器(1 3 ” )’而該感光斷電器+紅外線 偵測啟動器(1 3 )上方延設有一紅外線摘測頭(1 3 1” ),燈泡座(11”)之上方設有一台階(11 4 ”)恰可供LED基板(14”)及燈罩(15”) 置入並固定’其中LED基板(14”)上端面環設有1 至數個LED燈泡(1 4 1”),LED而基板(1 4”) 中央挖設有一透孔(1 4 2 ”)恰可供紅外線彳貞測頭 (131”)穿透’而該燈罩組(15” )之上方中 201042197 央處設有一圓凸罩(1 5 2 ” )對應偵測頭,亦為設 • 計數凸鏡(1 5 1 ”),對座LED ; ‘- 當燈泡組合(1”)之燈頭(1 1 1”)插入電 源插座時,電源經由變壓驅動器(1 1 3 ” )及感光 斷電器+紅外線偵測啟動器(13”)驅動LED燈泡(i 4 1”)發亮,當感光斷電器+紅外線偵測啟動器(1 3 ”)判斷外來光線不足時會驅動LED燈泡(SMD) ( 1 〇 4 1”)發亮至2 0 %〜3 0 %之可視微光;當感光 斷電器+紅外線偵測啟動器(1 3 ” )判定外來光線充 足時則會關閉LED燈泡(SMD)( 1 4 1 ”)以節省電能; 並利用紅外線偵測頭(1 3 1”)透過燈罩組(1 5 ”)之圓凸罩(1 5 2 ” )可偵測人員靠近時,則啟 1 0 0 %全光,當人員離開紅外線偵測頭(^ 3 1,,) 之偵測範圍後,LED燈泡(SMD) ( 1 4 1,,)會自動回 G 復至30%〜30%之可視微光。 請參閱第九圖所示,其中該感光斷電器+紅外線 測啟動器(1 3 )可凸出於LED基板(1 4 )之平面 任何部位,燈罩組(15)圓凸罩(152)對應之; 該LED燈泡(1 4 1 )可設置於LED基板(:[4 )平 面任何部份,燈軍、組(1 5 )之凸鏡(1 5 1 )對應 之。 明參閱第十圖所示,本發明之功能結構亦可構建 9 201042197 於曰光燈管型LED燈管。 請參閱第十一圖所示,本發明之功能結構亦可構 建於橫投光型LED燈泡。 透過上述之設計,本發明具有下列優點: 1 · 本發明燈泡組合(1 )之燈頭(i工工) 設計為可配合一般燈泡插座,且不必為了 加裝紅外線器來作配線施工,更無需因為 美觀而動用到水電工、油漆工或水泥工之 配線補修裝潢,可節省人力物力成本及監 工時間。 2 本發明之LED燈泡(SMD) ( 1 4 1 )可透 過感光斷電器+紅外線债測啟動器(1 3 ) 來判斷外來光線充足與不足而產生可視 微光及高可視光,讓LED燈泡(SMD) ( 1 4 1 )節電效果發揮至最大。 3 當停電時,充電電池(16)電力會自行 轉換成電源供LED燈泡(SMD) ( 1 4 1 ) 發光’使人員在第一時間能得到最佳照 明,可穩定情緒。 4 當需要手電筒或移動燈泡組合(1)時, 只需將燈泡組合(1 )拔離電源燈頭座, 而帶著燈泡組合(1 )任意移動,達到簡 201042197 單便利之多元功能。 5 · 當燈泡組合(1)已自動發光,使取下燈An LED bulb structure with a micro-infrared sensing device that is practical and improved in terms of safety. SUMMARY OF THE INVENTION The main object of the present invention is to provide a lamp holder structure with a low-light and infrared sensing device. The lamp head of the bottom end is designed as a lamp head and can be directly inserted into the lamp holder. The lamp socket has a transformer driver for driving the LED bulb, and the lamp holder has a battery compartment on the side to place the rechargeable battery and then install a function control board, and a photosensitive power breaker and infrared detection. Starter, 4 201042197 substrate and lampshade; use the line to connect the photosensitive breaker with the transformer driver's and the low-light and infrared detection to activate the all-optical function, and then connect to the substrate; when the bulb group is plugged in, the power supply is The transformer driver is activated by daytime and nighttime via a photosensitive breaker, and the LED shimmer is activated at night during the daytime shutdown. When the person is close, the infrared detection head detects 100% full light through the wide-angle cover detection. In addition, the battery is electrically connected to the end of the original transformer drive line, and a 1C connection is constructed. When the indoor power supply is normally powered, 1C can make the battery charge state. When the indoor power supply is powered off, the 1C also activates the battery power for the three functions of the above-mentioned LED lighting function, and the light bulb can be unplugged from the lamp holder in a critical situation as a function of moving illumination (like a flashlight). This function can also be installed inside and outside the building door, garage exterior lights, garage interior lights, rear door lights, use the light difference as a security function to guard against and deterrence to improve personal safety.实施 [Embodiment] The LED bulb structure with the low-light and infrared sensing device designed by the present invention has the technical means to achieve the above purpose, and the following is a brief description of the preferred embodiment. : First, please refer to the first figure. The invention is an LED bulb structure with a low-light and infrared sensing device. The bulb group (1) mainly comprises a bulb holder (1 1 )' the bottom of the bulb holder (1 1 ) The end is a 201042197-like bulb head (ll 1), and a concave battery chamber (1 1 2) is arranged on the side of the bulb holder (1 1;), and a transformer driver (113) is arranged above the lamp holder (11 1). And a plurality of solid-fixed columns (1 1 5 ) are fixed around the periphery to fix the function control substrate (1 2 ), and the lamp holder (1 1 ) is provided with a step (1 1 4 ) at the other end to fix the LED substrate; The function control substrate (1 2 ) is provided with a battery control switch (1 2 1 ) at a suitable place below; Ο a photosensitive power breaker + infrared detection starter (1 3 ), and an infrared detection head is arranged above (1 3 1 ); an LED substrate (14) is a hollow through hole (1 42) The substrate 'the upper end surface is provided with a plurality of Led bulbs (1 4 1 ); a lampshade group (15) constructs a round convex cover (1 5 2) at the corresponding detecting head to construct a convex portion corresponding to each LED Mirror (1 5 1 ); a rechargeable battery (16) is used for the second power supply; Ο a battery cover (17) is used for covering the battery room (112); the combination of the present invention is to control the function substrate (1 2 Installed on the fixed post (1 1 5 ) of the bulb holder (1 1 ), and then insert the photosensitive disconnector + infrared detection starter (1 3 ) into the step (1 14) of the bulb holder (1 1) And the photosensitive power breaker + infrared detection starter (1 3 ) is fixed under the LED substrate (1 4 ), so that the infrared sensor 201042197 detection head above the photosensitive power breaker + infrared detection starter (1 3 ) (l 3 1 ) can be penetrated through the through hole-(1 4 2 ) of the led substrate (i 4 ) to protrude above the LED substrate (1 4 ), and then the lamp cover group (15) is disposed on the LED substrate (14) Above, let the convex mirror (1 5 1 ) correspond exactly above the LED bulb (SMD) ( 1 4 1 ), the round convex cover (1 5 2) corresponds to the top of the detection head, and then the rechargeable battery (1 6 ) is placed Into the light bulb seat The battery compartment (worker 2) and the battery cover (17) is completed to complete the basic assembly of the present invention (as shown in the second figure of 0); please refer to the third figure, the circuit of the present invention is changed The voltage driver (1 1 3 ) is connected to the photosensitive power breaker + infrared detecting starter (1 3 ) via a function control panel (i 2) and then connected to the LED substrate (1 4); the other circuit is a transformer driver (1 1 3) Connecting the power month b control substrate (1 2 ) to the battery control switch (1 2 1 ) and the battery compartment (112) completes the overall combination of the present invention; The lamp combination (1) is implemented by inserting the lamp holder (1 1 1) of the lamp holder (1 1 1) into the plug socket to connect the power supply. When the photosensitive power breaker + infrared detection starter (1 3 ) has sufficient light When the power is off, when the external light is detected, the power-off system will be turned off and the LED light bulb (SMD) (1 4 1) will be illuminated to 20%~3 0% visible low light, when [ED bulb (SMD) ) (1 4 1 ) The light is transmitted through the convex mirror (151) on the lamp cover group (15) to make the light brighter; 201042197 If the infrared detection head (1 3 1) senses someone When entering the Detective • Measure Park, the LED light bulb (SMD) (1 4 1) will be activated to generate 0% of the total light. When the person leaves the detection range of the infrared detection head (丄3), the LED light bulb (SMD) ( ]_ 4 1 ) will automatically return to 2 0% ~ 3 0% of the visible low light, to achieve real energy saving and safety. Please refer to the fifth figure. If you need to move the lighting in case of power failure, you can remove the bulb combination (1) and use it as flashlight lighting. If you want to extend the lighting time of the bulb, you can wait for the time period. Turn off the battery power with the battery switch. Referring to the sixth to eighth figures, another embodiment of the present invention, the bulb assembly (1") utilizes a lamp holder (1 1, 1) under the lamp holder (1 1 1") 'the lamp holder (1 i) There is a transformer drive (113") and a line connection photosensitive disconnector + red G external line detection starter (1 3 ”)' and the photosensitive power breaker + infrared detection starter (1 3 ) An infrared pick-up probe (1 3 1" is arranged on the upper side, and a step (11 4 ′′) is disposed above the bulb seat (11”) for the LED substrate (14”) and the lamp cover (15”) to be inserted and fixed. 'In the upper end of the LED substrate (14"), there are 1 to several LED bulbs (1 4 1"), and the center of the substrate (1 4") is provided with a through hole (1 4 2") for infrared rays. The measuring head (131") penetrates 'and the top of the lampshade group (15') is provided with a round convex cover (1 5 2 ′) at the center of 201042197, corresponding to the detecting head, and also for the counting convex mirror (1) 5 1 ”), the opposite LED; '- When the lamp unit (1”) lamp head (1 1 1”) is plugged into the power outlet, the power supply is via the transformer drive 1 1 3 ”) and the photosensitive breaker + infrared detection starter (13”) drive the LED bulb (i 4 1”) to light up, when the photosensitive breaker + infrared detection starter (1 3 ”) judges the outside When the light is insufficient, the LED light bulb (SMD) (1 〇 4 1") will be illuminated to 20 0~3 0% visible low light; when the photosensitive power breaker + infrared detection starter (1 3 ”) is judged outside When the light is sufficient, the LED bulb (SMD) (1 4 1 ") is turned off to save power; and the infrared detector (1 3 1") is used to pass through the dome of the lamp cover (1 5 ”) (1 5 2 ” When the detectable person is close, the 100% total light is turned on. When the person leaves the detection range of the infrared detection head (^ 3 1,), the LED light bulb (SMD) (1 4 1,,) will Automatically return G to 30%~30% visible low light. Please refer to the figure ninth, where the photosensitive breaker + infrared detector (1 3 ) can protrude from the plane of the LED substrate (1 4 ) In any part, the lamp cover group (15) corresponding to the circular convex cover (152); the LED light bulb (1 4 1 ) can be disposed on any part of the LED substrate (: [4) plane, the convex of the lamp army, the group (1 5) The mirror (1 5 1 ) corresponds to the same. As shown in the tenth figure, the functional structure of the present invention can also construct 9 201042197 in the neon tube type LED tube. Please refer to the eleventh figure, the function of the invention The structure can also be constructed in a horizontally-emitting light-emitting LED bulb. Through the above design, the present invention has the following advantages: 1) The lamp cap (i) of the bulb assembly (1) of the present invention is designed to fit a general bulb socket, and does not have to be The installation of infrared ray is used for wiring construction, and it is not necessary to use the wiring repair and decoration of plumbers, painters or cement workers because of the beauty, which can save manpower and material cost and supervision time. 2 The LED light bulb (SMD) (1 4 1 ) of the present invention can detect the sufficient and insufficient external light to generate visible low light and high visible light through the photosensitive power breaker + infrared debt test starter (1 3 ), so that the LED light bulb (SMD) ( 1 4 1 ) The power saving effect is maximized. 3 When the power is cut off, the rechargeable battery (16) will convert itself into a power supply for the LED bulb (SMD) (1 4 1 ) to illuminate the person's first time to get the best illumination, which can stabilize the mood. 4 When a flashlight or moving light bulb combination (1) is required, simply pull the light bulb combination (1) away from the power base, and move it with the light bulb combination (1) to achieve the versatile function of the simple 201042197. 5 · When the lamp combination (1) is automatically illuminated, the lamp is removed
泡組合(1 )更為簡單容易,尤其在危急 狀況下更極易辨認燈泡組合(1 )之位 置,不必為搜尋手電筒而忙亂。當夜間啟 動3 0 %光後’可偵測是否有人員經過其 偵測範圍,若有人員進入大門内外燈、車 Ο 庫内外燈、後門内外燈時,則自動啟動LED 燈泡(SMD) ( 1 4 1 )發光至100%之警戒 功能;而當人員離開紅外線偵測頭(1 3 1 )偵測範圍時則會回復LED燈泡(SMD) (1 4 1 )至2 0%〜3 0%可視微光, 在節能省電外又增加安全性。 6 · LED燈泡(SMD) ( 1 4 1 )透過燈罩組(1 Ο 5 )之凸鏡(1 5 1 )可加強光線,使照 明效果增強。 綜上所述,本發明實施例嫁能達到所預期之 使用功效,又其所揭露之具體構造,不僅未曾見於同 類產品中,亦未曾公開於申請前,誠已完全符合專利 法之規定與要求’爰依法提出發明專利之申請。 11 201042197 【圖式簡單說明】 - 第一圖:本發明之立體分解圖。 • 第二圖:本發明之立體組合圖。 第三圖··本發明之剖面結構圖。 第四圖:本發明之使用狀態實施例圖。 第五圖:本發明之移動狀態實施例圖。 第六圖:本發明之另一實施例立體分解圖。 第七圖:本發明之另一實施例立體組合圖。 第八圖:本發明之另一實施例剖面結構圖。 〇 第九圖:本發明之燈罩另一種形態示意圖。 第十圖:本發明之應用於曰光燈管狀態示意圖。 第十一圖:本發明之應用於橫投光型led燈管狀 態示意圖。 【主要元件符號說明】 1,Γ 燈泡組合 11,1Γ 燈泡座 111,111” 燈頭 112 電池室 113, 113” 變壓驅動器 114,114” 台階 115 固定柱 12 功能控制基板 121 電池控電開關 13, 13” 感光斷電器+紅外線偵測啟動器 131,13Γ 紅外線偵測頭 14, 14” LED基板 141,141" LED 燈泡(SMD) 142, 142” 透孔 15, 15” 燈罩組 151,15Γ 凸鏡 152, 152” 圓凸罩 16 充電電池 17 電池蓋 12The bubble combination (1) is simpler and easier, especially in critical situations where the bulb combination (1) is more easily identifiable and does not have to be confusing to search for a flashlight. When 30% light is activated at night, it can detect whether a person has passed the detection range. If a person enters the inner and outer lights of the door, the interior and exterior lights of the rut, and the inner and outer lights of the rear door, the LED light bulb (SMD) is automatically activated (1 4 1) Illumination to 100% alert function; when the person leaves the infrared detection head (1 3 1 ) detection range, it will return LED bulb (SMD) (1 4 1 ) to 20%~3 0% visible Shimmering adds safety in addition to energy saving. 6 · LED bulb (SMD) ( 1 4 1 ) Enhances the light through the convex mirror (1 5 1 ) of the lampshade group (1 Ο 5) for enhanced illumination. In summary, the embodiment of the present invention achieves the expected use efficiency, and the specific structure disclosed therein has not been seen in the same product, nor has it been disclosed before the application, and has fully complied with the requirements and requirements of the patent law. '爰Application for invention patents according to law. 11 201042197 [Simplified description of the drawings] - First figure: a perspective exploded view of the present invention. • Second figure: A three-dimensional combination of the invention. Third Figure · A cross-sectional structural view of the present invention. Fourth Figure: A diagram showing an embodiment of the state of use of the present invention. Fifth Figure: A diagram of an embodiment of a mobile state of the present invention. Figure 6 is a perspective exploded view of another embodiment of the present invention. Figure 7 is a perspective view of another embodiment of the present invention. Figure 8 is a cross-sectional structural view showing another embodiment of the present invention.第九 Ninth diagram: Another schematic diagram of the lampshade of the present invention. Fig. 10 is a schematic view showing the state of the present invention applied to a neon lamp. Eleventh drawing: Schematic diagram of the tubular state of the transverse light-emitting type LED lamp of the present invention. [Main component symbol description] 1, 灯泡 Light bulb combination 11, 1 灯泡 Light bulb holder 111, 111" Lamp 112 Battery chamber 113, 113" Transformer driver 114, 114" Step 115 Fixed column 12 Function control board 121 Battery control switch 13, 13" Photosensitive Electrical + Infrared Detector 131, 13 红外线 Infrared Detector 14, 14" LED Substrate 141, 141 " LED Bulb (SMD) 142, 142" Through Hole 15, 15" Shade Set 151, 15" Convex 152, 152" Round convex cover 16 rechargeable battery 17 battery cover 12