M376706 五、新型說明: 【新型所屬之技術領域】 本創作涉及一種LED燈飾,尤指一種設有電源重置電路的 _· LED閃泡燈飾。 . 【先前技術】 如圖1所示’習知LED燈飾1〇的構造,包括一電源線u、 一電源插碩12、一控制盒a及一組或一組以上的uj)燈串, • 且每組LED燈串14設有預定數目的LED燈泡15。 所述控制盒13設有—微控制器(MCU)、多個輸出埠pn及一共 接埠Pcom。其中,每個輸出埠Pn是一個燈串迴路,可以提供一組 LED燈串14連接,且由所述微控制器(MCU)控制各個輸出埠巧的 電源輸出。 因此,習知LE1D燈飾1〇使用電源線u的電源插頭12聯結到 父流電源後’所述控制盒13的微控制器(MCU)將依照程式設計執 ❿-仃控制各個輸出埠!^的電源輸出,使得每組·燈串j 4上的每顆 'LED燈泡15產生點亮或熄滅的變化效果。 但,習知LED燈飾1〇必須使用报多組LED燈串14,造成 LED燈串14的傳輸線太多容易糾纏—起。而且,每組LED燈串 14上的LED燈泡15是一齊同步進行相同變化,欠缺利用各個獨 立使用的LED燈泡15 _立燈光變化來激發出更加生動活潑的 燈光動態效果,此缺點又造成習知⑽燈傅ι〇的燈光變化實在 【新型内容】 為了克服現有技術中的led燈飾的缺點’本創作的目的在於 提七、種不需使用微控制器(MCU)及沒有太多傳輸線的⑽燈娜 ,包括將傳統LED燈泡改良成一種有加設閃滅時序控制積體電路 的LED燈泡(以下,本文稱為閃泡),且由所述閃滅時序控 制積體電路㈣LED閃泡產生燈光變化;以及,助電源重置電 路執行母隔—段設定時間就進行電源重置(power reset),使得 各個獨立使用的LED閃泡開始產生燈光變化的起啟時間,始終是 保持同步變化效果;所以,可達成利用簡單迴路設計就完成複雜 的燈飾變化。 本創作的主要目的在於提供一種LED閃泡燈飾,包括一設有 電源插頭的電源線、—顧上的單色、雙色或多彩LED閃泡,與 所述電源線構成串聯或並聯迴路、及一電路控制盒,設於所述電 源線的電源插頭與LED閃泡之間,其中,所述電路控制盒設有一 低通濾波電路及一電源重置電路’從所述電源線的電源插頭輸入 的AC電源,經過所述低通濾波電路濾波成為Dc電源;而所述電 源重置電路包括一電源重置1C元件及二電晶體Q1及敗,且每 隔一段設定時間執行電源重置,使得串聯或並聯在所述電源線的 各個LED閃泡的起啟時間能夠恢復保持同步變化效果,此特點促 成利用簡單迴路設計就完成複雜的燈飾變化。 所述單色led閃泡包括一單色led晶片及一 1C驅動元件, 且所述1C驅動元件是依照預設的燈光變化時序程式以Dc電源驅 動所逑LED晶片產生單色燈光變化。M376706 V. New description: [New technical field] This creation involves an LED lighting, especially a _· LED flashing light with a power reset circuit. [Prior Art] As shown in FIG. 1 , the structure of a conventional LED lighting device includes a power cord u, a power plug 12, a control box a, and one or more sets of uj strings. And each set of LED light strings 14 is provided with a predetermined number of LED bulbs 15. The control box 13 is provided with a microcontroller (MCU), a plurality of outputs pn, and a total of Pcom. Wherein, each output port Pn is a light string circuit, and a set of LED light strings 14 can be connected, and the output power of each output is controlled by the microcontroller (MCU). Therefore, the conventional LE1D lighting fixture 1 is connected to the parent flow power supply using the power plug 12 of the power cord u. The microcontroller (MCU) of the control box 13 will control each output according to the programming design. The power output is such that each 'LED bulb 15' on each group of light strings j 4 produces a change effect of turning on or off. However, it is necessary to use a plurality of sets of LED light strings 14 for the conventional LED lighting, so that the transmission line of the LED light string 14 is too entangled. Moreover, the LED bulbs 15 on each group of LED light strings 14 are synchronized to perform the same change, and the LED lighting bulbs that are used independently are lacking to ignite more vivid lighting dynamic effects, which also causes conventional knowledge. (10) The light change of the lamp 〇 〇 【 [new content] In order to overcome the shortcomings of the led lighting in the prior art, the purpose of this creation is to mention seven kinds of (10) lamps without using a microcontroller (MCU) and without too many transmission lines. Na, including the modification of a conventional LED bulb into an LED bulb with an added flash timing control integrated circuit (hereinafter, referred to herein as a flash bulb), and the flashing timing control integrated circuit (4) LED flashing to produce a light change And, the power-reset circuit performs a power-reset on the master-segment-set time, so that each of the independently used LED flashes begins to generate a light change start-up time, which is always a synchronous change effect; It is possible to achieve complex lighting changes with a simple loop design. The main purpose of the present invention is to provide an LED flashing light fixture, comprising a power cord with a power plug, a monochrome, two-color or colorful LED flash bulb, and a series or parallel circuit with the power cord, and a a circuit control box disposed between the power plug of the power line and the LED flash bubble, wherein the circuit control box is provided with a low pass filter circuit and a power reset circuit 'input from the power plug of the power line The AC power source is filtered by the low-pass filter circuit to become a DC power source; and the power reset circuit includes a power reset 1C component and the second transistor Q1 and the power supply is reset, and the power reset is performed every set time, so that the power supply is connected. Or the parallel start-up time of each LED flash of the power line can restore the effect of maintaining a synchronous change, which makes it possible to complete complex lighting changes with a simple loop design. The monochromatic LED flash bulb comprises a monochromatic LED chip and a 1C driving component, and the 1C driving component generates a monochromatic light change by driving the LED chip with the DC power according to a preset light change timing program.
一所述雙色led閃泡包括二顆不同色系的晶片及—κ驅 動兀件’且所述IG驅動元件是依照預設祕光變化時序程式以 此電源驅動所述二顆晶片產生雙色燈光變化。 J 所述多彩LED閃泡包括三顆紅、綠、藍色系的⑽晶片及一 1C驅動元件,頭述IC驅動元件是依照慨的燈光變化時序程 式以DC電源驅動所述三顆晶片產生多彩燈光變化。 王 一本創_ LED閃泡燈倚,進一步在所述電路控制盒設有一穩 定DC電源的穩壓電路。〜 本創作的LED閃泡燈飾,進—步在所述電源線上設有—供應 DC電源的插座。 ‘ 本創作的LED閃泡燈姊,具有以下優點: I不需使用MCU(微處理器)控制; 2·利用各侧立的不同LED咖設計,可纽衫㈣能組合變 化; 3. 利用簡單迴路設計完成複雜的燈飾變化; 4. 應用簡單電源重置電路設計,使得各個獨立使用的⑽閃泡的 起始時間始終-致,並且完成整齊同步變化效果; 5·線路簡單及易於設計各種造型燈飾。例如,使用較少的電線迴 路’就可完成串接的一插座。 【實施方式】 如圖2至圖4所示’本創作的LED閃泡燈飾2〇,包括—電源 M376706The two-color LED flash bubble includes two different color system wafers and a κ driving device, and the IG driving component drives the two wafers to generate two-color light changes according to a preset secret light changing timing program. . The colorful LED flash bulb includes three red, green, and blue (10) chips and a 1C driving component. The IC driving component is driven by a DC power source to generate the colorful color according to a sequence of light change timing programs. The light changes. Wang Yibenchuang _ LED flashing lamp leans, further providing a stable DC power supply voltage regulator circuit in the circuit control box. ~ The LED flashing light fixture of this creation is provided with a socket for supplying DC power on the power line. 'The LED flashing lamp of this creation has the following advantages: I do not need to use MCU (microprocessor) control; 2. Use different lateral LED coffee design, can change the shirt (4); 3. Simple to use The circuit design completes the complicated lighting changes; 4. The simple power supply reset circuit design is applied, so that the starting time of each independently used (10) flash bubble is always achieved, and the neat synchronous change effect is completed; 5. The circuit is simple and easy to design various shapes. Lighting. For example, a socket can be completed by using fewer wire loops. [Embodiment] As shown in Fig. 2 to Fig. 4, the LED flashing light fixture of the present invention is 2 〇, including - power supply M376706
23整流濾波成直流(DC)電源, 的AC電源,經過所述電路控制盒 再供應給聯結在電源線21上面且 與電源線21構成串聯或並聯迴路的單色或多彩⑽閃泡28使用 ;尤其,所述電路控制盒23還具有電源重置⑼· reset)功能 # ’每隔一段設定時間,自動執行瞬間中止供應DC電源再立刻電 源重置(power reset)恢復供應DC電源給單色或多彩LE:D閃泡28 使用。 如圖2及圖4所示,本創作的LED閃泡燈飾20的另一具體 實施例,係於所述電源線2丨的一端再增設一插座30,以供應dc 電源。 所述電路控制盒23至少包括—低通濾波電路(i〇w阳% · filter) 24及一電源重置電路26,或視需要,再進一步附加上 • 一穩塵電路25。 所述低通濾波電路24,由一二極體、一電阻器Ri及一電 容器C1我同組成。從電源線21的電源插頭22輪入的AC電源, 經由二極體D1整流後,再經由電阻器R1及電容器α濾波成為 DC電源 戶斤述穩壓電路25由-穩壓二極體ZD1及一電容器共同組 當蛇電流變動時 成,成祝需要,再進一步附加上一電阻器R2 6 M376706 ,所述穩壓二極體ZD1會穩定由低通濾波電路24輪出的%電壓 ’使輸出電壓維持固定。 所述電源重置電路26設置在低通濾波電路24及穩壓電路25 . 的後方,從低通濾波電路24輸出的DC電源,經過穩壓電路25 • 穩壓後,就成為供應給電源重置電路26使用的有效電壓電源。 所述電源重置電路26具電源開關及電源重置功能,包括一 電源重置1C元件27及二電晶體qi及Q2,或視需要,再進一步 _ 包括如圖3所示的三電阻器R3、R4及R5。 所述電源重置1C元件27是週而復始執行每隔一段設定時間 就自動電源重置(power reset)的1C控制元件。 所述電晶體Ql、Q2作為電源開關使用。在所述電源重置IC 元件27週而復始執行電源重置的時間間隔之内,有效DC電源將 透過所述電晶體Ql、Q2供應給單色或多彩LED閃泡28使用。當 所述電源重置1C元件27執行電源重置之時,所述電晶體Ql、Q2 春·將瞬間中止供應DC電源,再因為電源重置(p0wer reset)立刻恢 -復供應DC電源給單色或多彩LED閃泡28使用。 所述LED閃泡28是一種LED燈泡内部加設1C元件的LED燈 泡。單色LED閃泡28的結構,如圖3所示,包括一單色LED晶 片28a及一1C驅動元件28b。所述1C驅動元件28b是一種控制 LED晶片28a閃滅時序的積體電路,從電源線21取得DC電源, 就依程式設計執行驅動所述LE:D晶片28a產生單色燈光變化。 雙色LED閃泡28的結構,如圖5所示,包括二顆不同色系 7 M376706 的LED晶片28a及一驅動1C元件28b,且由所述1C驅動元件 28b控制二顆LED晶片28a產生雙色燈光變化。 夕於LED閃泡28的結構’如圖6所示,包括三顆紅、綠、 藍色系的LED晶片28a及一 1C驅動元件28b,且由所述1C驅動 元件28b控制三顆LED晶片28a產生多彩燈光變化。 因此,利用不同閃滅時序的1C驅動元件28b與不同單色、 雙色或多彩LED晶片28a搭配組合後,將組成各式各樣彩具不同 閃滅時序規格的單色、雙色或多彩LEI)閃泡28。 例如’本創作的閃泡燈飾2〇要實現如圖7規劃的燈光 又化夺序®I (以下稱為⑽閃泡劇本)時,以8顆不同規格的單 色LED閃泡28與電源線21及電路控制盒23組成如圖2的⑽ 閃泡燈飾2G。其中,電路控歡23的電源重置電路26每隔一段 設^間τ自動電源重置;而每顆單色⑽閃泡28包括一單色 =曰曰片一28a及-Ic驅動元件娜,但不同單色⑽閃泡批的 門、^曰動冗件娜規格不相同,分別使用點亮其搭配組合的LED 閃泡晶片28a的時間相|τ 及7秒的3秒、4秒、5秒、6秒 規格^色ΓρΓ見如_劃的 _劇本時,仍以8顆不同 犧閃泡燈飾2G。料Γ 盒23組成如圖2 隔-段設料間τ自 逼原重置電路26母 口口念心 电源重置’而每顆單色LED閃泡28包括 一早色LE:D晶片28a芬J^ ^ 此及- 1C驅動元件28b。但不同單色㈣閃 8 MJ /6706 泡28的IC驅動兀件28b規格不相同,分別使用點亮其搭配組合 的LED閃泡晶片28a的時間相差為1秒、2秒、3秒、4秒、5秒 、6秒及7秒的1C驅動树咖,且點亮時間只持續}秒。 • 财’要貫現如圖9規朗LED舰劇本時,仍以8顆不同 *規格的單色閃泡28與電源線21及電路控制盒23組成如圖2 的LED閃泡燈飾20。其中,電路控制盒⑸的電源重置電路沈每 隔-段設定時間τ自動電源重置;而每顆單色LED閃泡28包括 •—早色LED晶片28a及―K驅動元件28b。但不同單色LE:D閃 泡28的1C驅動元件28b規格不相同,分別使用點亮其搭配組合 的LED 包晶片28a的時間相差為!秒、2秒、3秒、4秒、5秒 、6秒及7秒的1C驅動元件28b,且點亮時間為i秒閃燦5次。 按fe、圖7、圖8或圖9的LED閃泡劇本組裝的LED閃泡燈飾 2〇 ’以電源線21的電源插頭22接上電源,所述LED閃泡燈飾加 的8顆LED閃泡28將依照7、圖8或圖9規劃的LED閃泡劇本輪 #-流點亮及產生燈光變化。 本創作的LED閃泡燈飾20,在工作-段時間之後,所組裝的 閃泡28的燈光時序變化,與所規劃的⑽閃泡劇本比對,通 々會漸漸發生時序落差。因此,所述的電路控制盒23每隔-段 汉疋日獨執行電源重置的目的,就是使所組裝的閃泡汾重 頭開始按照咖閃泡劇本的規劃產生燈光時序變化,防止發生時 序落差。 據此,要實現如圖10規劃的LED閃泡劇本時,以n顆不同 9 規格的多彩_㈣與電源線21及電路控勤23組成如圖2 的⑽閃麟飾20。其中’魏㈣盒23物輯置電路26每 隔一段設定時間T自動電源重置;而每顆多彩⑽閃泡犯包括 二顆紅、綠、k色系的⑽晶片铷及一 ic驅動元件娜,作 不同多彩LED閃泡28的IC驅動元件_規格不相同。 例如,其中一種1(:驅動元件娜是在時間區⑽點亮紅色 糸®晶片28a產生閃燦單色紅光,在時間區間兑同時點亮紅 色系及、彔色系LED晶片28a產生閃爍紅、綠雙色混合光,在時間 區間Sn點亮藍色系LED晶片撕產生單色藍光。另一種驅動元 二哪是在同一時間區間S1點亮藍色系⑽晶片28a產生閃燦 單。色藍光’在同一時間區間%點亮綠色系LED晶片28a產生閃 爍單色綠’在同-時間區間Sn同時點亮紅色系、綠色系及藍色 系LED晶片28a產生漸明漸暗紅、綠及藍三色混合光。 如圖10所示’每顆多彩LED閃泡28在時間區間SI、S2、… 、Sn各自按照LED本龍_自產生燈遽化。為防止發 生時序落差,當經過時關達設定時間了時,所述⑽閃泡燈饰 20的電路控制盒23執行電源重置,使得所組裝的每顆多彩⑽ 閃泡28重蝴始再按照⑽本的規麵自產生燈光變化 ,且令燈變化效果朗整賴—同步變化的要求。 以上所揭示的内容,乃本創作較佳的具體實施例,舉凡與本 創作的創作目的與所能達成的效果,係構成所謂的等效或均等, 且屬為m項技術者能夠輕易完成的簡祕改、修飾、改良或 M376706 .變化,麟不麟本卿得以涵蓋主_翻權範脅。 【圖式簡單說明】 . 圖1為習知led燈飾示意圖。 • 圖2為本創作的LED閃泡燈飾示意圖。 圖3為圖2所示的LED閃泡燈飾的電路圖。 圖4為圖2所示的LED閃泡燈飾的控制流程方塊圖。 # 圖5為雙色LED閃泡的結構示意圖。 圖6為多彩LED閃泡的結構示意圖。 圖7為本創作的led閃泡燈飾產生燈光變化的時序控制圖。 圖8為本創作的LED閃泡燈飾產生另一種燈光變化的時序控 制圖。 圖9為本創作的LH)閃泡燈飾產生另一種燈光變化的時序控 制圖。 ·' 圖1Q為本創作的LED閃泡燈飾產生另-種燈光變化的時序 • 控制圖。 【主要元件符號說明】 10.· S知LED燈飾 11… _ •電源線 12,· ........電源插頭 13…·. …··控制盒 14- ........LED燈串 15···· 燈泡 20,. led閃、;包燈飾 21…· 毛源線 M376706 22.........電源插頭 24.........低通濾波電路 26.........電源重置電路 28.........LED 閃泡. 28b.........1C驅動元件 23.........電路控制盒 25.........穩壓電路 27.........電源重置1C元件 28a .........LED 晶片 30.........插座23 rectified and filtered into a direct current (DC) power supply, the AC power source is supplied to the monochromatic or colorful (10) flash bubble 28 connected to the power line 21 and connected in series or parallel with the power line 21 through the circuit control box; In particular, the circuit control box 23 also has a power reset (9)·reset function # 'every set period of time, automatically executes the instantaneous suspension of the supply of DC power and then immediately resets the power supply to restore the supply of DC power to the monochrome or Colorful LE: D flash bubble 28 is used. As shown in FIG. 2 and FIG. 4, another specific embodiment of the LED flashing lamp 20 of the present invention is further provided with a socket 30 at one end of the power cord 2 to supply a dc power source. The circuit control box 23 includes at least a low-pass filter circuit (24) and a power supply reset circuit 26, or a further dust-stabilizing circuit 25, if necessary. The low-pass filter circuit 24 is composed of a diode, a resistor Ri, and a capacitor C1. The AC power source that is turned in from the power plug 22 of the power line 21 is rectified by the diode D1, and then filtered by the resistor R1 and the capacitor α to become a DC power source. The voltage regulator circuit 25 is regulated by a Zener diode ZD1. A capacitor common group is formed when the snake current changes, and is further required to be added, and a resistor R2 6 M376706 is further added, and the Zener diode ZD1 stabilizes the % voltage 'turned by the low-pass filter circuit 24 to make the output The voltage remains fixed. The power reset circuit 26 is disposed behind the low pass filter circuit 24 and the voltage stabilizing circuit 25, and the DC power output from the low pass filter circuit 24 is regulated by the voltage regulator circuit 25. The effective voltage source used by circuit 26 is placed. The power reset circuit 26 has a power switch and a power reset function, including a power reset 1C component 27 and two transistors qi and Q2, or, if necessary, further _ including a three resistor R3 as shown in FIG. , R4 and R5. The power-reset 1C component 27 is a 1C control element that performs an automatic power reset every other set time. The transistors Q1, Q2 are used as power switches. During the time interval in which the power reset IC component 27 is cycled to perform a power reset, the active DC power source is supplied through the transistors Q1, Q2 to the single or colorful LED flash bulbs 28 for use. When the power reset 1C element 27 performs a power reset, the transistors Q1, Q2 will instantaneously suspend the supply of the DC power supply, and then immediately restore the DC power supply to the single power supply due to the power reset (p0wer reset). Color or colorful LED flash bulb 28 is used. The LED flash bulb 28 is an LED bulb in which a 1C component is added inside the LED bulb. The structure of the monochromatic LED flash bulb 28, as shown in Figure 3, includes a monochromatic LED wafer 28a and a 1C drive element 28b. The 1C driving element 28b is an integrated circuit for controlling the flashing timing of the LED chip 28a. The DC power is taken from the power line 21, and the LE:D wafer 28a is driven to generate a monochromatic light change according to a program design. The structure of the two-color LED flash bulb 28, as shown in FIG. 5, includes two LED chips 28a of different color systems 7 M376706 and a driving 1C component 28b, and the two LED chips 28a are controlled by the 1C driving component 28b to generate two-color light. Variety. As shown in FIG. 6, the structure of the LED flash bulb 28 includes three red, green, and blue LED chips 28a and a 1C driving element 28b, and the three LED chips 28a are controlled by the 1C driving element 28b. Produce colorful lighting changes. Therefore, the 1C driving element 28b with different flashing timings is combined with different monochromatic, two-color or colorful LED chips 28a, and the monochromatic, bi-color or colorful LEI which constitutes various flashing timing specifications of various colors is flashed. Bubble 28. For example, 'The flash bulb lighting of this creation 2 is to realize the lighting and reordering of the plan as shown in Fig. 7 (hereinafter referred to as (10) flash bubble script), with 8 different sizes of monochromatic LED flashing 28 and power cord 21 and the circuit control box 23 are composed of (10) flash bulb lighting 2G as shown in FIG. Wherein, the power reset circuit 26 of the circuit control circuit 23 automatically resets the power supply every other period; and each of the monochrome (10) flash bubbles 28 includes a single color = a chip 28a and an -Ic driving element. However, different monochrome (10) flash bubble batch gates and ^ 曰 冗 娜 娜 娜 娜 娜 规格 规格 规格 规格 规格 规格 LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED Seconds, 6 seconds specifications ^ color Γ Γ Γ see _ strokes _ script, still with 8 different sacrifice flashing lights 2G. Γ Box 23 is composed as shown in Figure 2. Inter-segment setting τ self-forcing reset circuit 26 female port nuisance power reset 'and each monochromatic LED flash bubble 28 includes an early color LE: D wafer 28a Fen J^ ^ This and - 1C drive element 28b. However, different monochromatic (four) flash 8 MJ / 6706 bubble 28 IC drive device 28b specifications are different, respectively, using the LED flash chip 28a to illuminate its combination, the time difference is 1 second, 2 seconds, 3 seconds, 4 seconds 1, 5 seconds, 6 seconds, and 7 seconds of 1C drive tree, and the lighting time lasts only } seconds. • When you want to see the LED ship script as shown in Figure 9, you still have 8 different * specifications of the single-color flash bubble 28 and the power line 21 and the circuit control box 23 to form the LED flashing light 20 of Figure 2. Wherein, the power supply reset circuit of the circuit control box (5) is automatically reset by the interval τ setting time τ; and each of the monochrome LED flashes 28 includes - the early color LED chip 28a and the "K drive element 28b". However, the specifications of the 1C driving elements 28b of the different monochromatic LE:D flashes 28 are different, and the time difference between the LED package wafers 28a for illuminating the combinations thereof is respectively! 1C drive element 28b of seconds, 2 seconds, 3 seconds, 4 seconds, 5 seconds, 6 seconds, and 7 seconds, and the lighting time is 5 seconds for i seconds. LED flashing light fixture assembled according to the LED flash bubble script of fe, Fig. 7, Fig. 8, or Fig. 9 is connected to the power plug 22 of the power cord 21, and the LED flash bulb is added with 8 LED flash bulbs. 28 will be in accordance with 7, 8 or 9 plan LED flash bubble script wheel #- stream lighting and produce light changes. The LED flashing light fixture 20 of the present invention changes the light timing of the assembled flash bubble 28 after the working-time period, and compares with the planned (10) flash bubble script, and the timing difference gradually occurs. Therefore, the circuit control box 23 performs the power reset operation every other time, that is, the assembled flash bubble head starts to generate the light timing change according to the plan of the coffee flashing script to prevent the timing drop from occurring. . According to this, in order to realize the LED flash bubble script as planned in Fig. 10, the colorful _ (four) of the different 9 specifications and the power line 21 and the circuit control 23 are composed of (10) flashing ornaments 20 as shown in Fig. 2. The 'Wei (four) box 23 object collection circuit 26 automatically resets the power every set time T; and each colorful (10) flash bubble includes two red, green, k color (10) wafers and an ic driving element , IC driver components for different colorful LED flash bulbs _ specifications are not the same. For example, one of the types 1 (the driving element Na is illuminated in the time zone (10). The red 糸® wafer 28a produces a flashing monochromatic red light, and the red color is simultaneously illuminated in the time interval, and the ochre LED wafer 28a produces a flashing red. The green two-color mixed light illuminates the blue LED wafer in the time interval Sn to produce a monochromatic blue light. The other driving element 2 illuminates the blue system (10) wafer 28a in the same time interval S1 to produce a flashing single color. 'In the same time interval %, the green LED chip 28a is lit to produce a blinking monochrome green'. In the same time interval Sn, the red, green, and blue LED chips 28a are simultaneously illuminated to produce faded red, green, and blue colors. Color mixing light. As shown in Figure 10, 'Every colorful LED flash bulb 28 in the time interval SI, S2, ..., Sn each according to the LED Benlong_ self-generating lamp. To prevent the occurrence of timing drops, when passing When the time is set, the circuit control box 23 of the (10) flash bulb 20 performs a power reset, so that each of the assembled colorful (10) flash bulbs 28 is again colored and changed according to the plane of (10), and Let the light change effect The content disclosed above is a better embodiment of the present creation, and the effect achieved by the creation and the purpose of the creation is so-called equivalent or equal, and it is easy for those who belong to the m-item. The completion of the brief change, modification, improvement or M376706. Change, Lin Bu Lin Ben Qing can cover the main _ 权 范 胁 。 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 Figure 3 is a circuit diagram of the LED flashing light lamp shown in Figure 2. Figure 4 is a block diagram of the control flow of the LED flashing light lamp shown in Figure 2. # Figure 5 is a structure of a two-color LED flashing bubble Fig. 6 is a schematic diagram of the structure of the colorful LED flashing. Fig. 7 is a timing control diagram of the light change caused by the LED flashing lighting of the present invention. Fig. 8 is a timing control diagram of another light change generated by the LED flashing lighting of the present invention. Figure 9 is a timing control diagram of another light change produced by the LH) flash bulb lighting of the present invention. · ' Figure 1Q is the timing of another kind of light change caused by the LED flashing lighting of the creation. • Control chart. [Description of main component symbols] 10.· S know LED lighting 11... _ • Power cord 12, ·........Power plug 13...·..··Control box 14-....... .LED light string 15···· bulb 20,. led flash,; package lighting 21...·Mao source line M376706 22.........power plug 24.........low pass Filter circuit 26.........power reset circuit 28.........LED flash bubble. 28b.........1C drive element 23... ...circuit control box 25.........stabilizing circuit 27...power supply reset 1C element 28a .........LED chip 30... ......socket
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