200923246 九、發明說明: C發明所屬之技術領域】 發明領域 本發明係有關於一種行動發光二極體(LED)燈。 5 【先前技術】 發明背景 以電池充電,且具有一固定裝置,以取代習知燈,如 手電筒,行動LED燈已具有新的應用領域。Osram把此種行 '動LED燈稱為、、隨身亮〃。電壓係以商業電池供應,而發光 10 二極體真空管製造白光。連接至發光二極體的反射器的一 按鈕使得行動LED燈容易地被操作。 ''隨身亮〃 LED燈通常製造成圓盤形狀,且成為包括 三個發光二極體的線性配置。一微光功能亦可整合至行動 發光二極體(LED)燈中。 15 此種小型LED燈允許低耗電,消耗低操作功率,產生 / ' 較少的熱;以及以一特別小的形狀作一定向的光的分佈, \ : 然而’通常很難使用數個共同具有此種形式的行動發光二 極體(LED)燈的方向性輻射。 【明内】 20 發明概要 本發明的目的是備置一行動發光二極體(LED)燈,其允 許簡單的使用數個行動發光二極體(LED)燈的定向的輻 射。此目的可為申請專利範圍第1項界定的發明達成。 本發明備置一行動發光二極體(LED)燈,其包括至少— 5 200923246 機械性或磁性連接元件,藉由它可建立與另—最好且有相 同設計的行動LED燈機械性或磁性的連接。如此,數個· 燈可相連接’俾以形成圖樣或符號。 最好行動發光二極體(LED)燈及另—行動發光二極體 (LED)燈可以電池充電,不須要電線連接。 此外’行動發S二極體(LED)燈以及另— 體(LED)燈可包括一固定襄置。如此,它們可容易地架設至 在想要照明的附近的-壁,或其他適合的表面或目標物。 10 行動發光4赠(LED)狀另—㈣料二極體(led) 燈最好顯示至少三個LED元件,其可同時操作,使得足夠 的光強度照明可藉由依據習知技藝的發光二極體完成。 作為連接元件,該行動發*二極體(led)燈以及該另一 行動發光二極體(LED)燈可包括至少兩個不同極性的磁 鐵。因此,僅使用少量的裝置,即可備置適於作暫時的照 15 明,且容易拆卸的一安全架設。 該行動發光二極體(LED)燈以及㈣另—行動發光二極 體(LED)燈可具有-橢圓形,且可具有至少兩㈣連相對端 部的不同極性的磁鐵。因此,即使在狹窄空間中亦可達成 照明’且可形成長條的光。 該行動發光二極體(LE擊㈣另—行動發光二 極體(LED)燈最好大體上為圓盤形狀,因而可完成一大面積 的照明。 最好三個磁鐵以120度間隔地備置成田比連該行動發光 二極體(闕燈的外週邊。因此,四個咖燈可以磁力相互 20 200923246 固定,且備置一組數量可改變的led燈 設計的L E D燈組配置在一起 區域的照明元件。 ’其可與其他相同 俾以以一簡單的方法形成大 此外,該行動發光二才亟體(LED)燈以及/或該另一行動 5發光二極體(LED)燈可包括作為連接元件的至少一插座,其 用以容納一插頭,因此藉由機械的連接可獲得一電氣的連 接。 經由該插座,一電信號可自該行動發光二極體(LED) 燈傳遞至具LED燈’因而在開啟行動發光 10二極體(LED)燈時,藉由該信號,該另一行動發光二極體 (L E D)燈可被開啟。數個L E D燈的開啟操作可大體上以此方 式進行。 本發明的十分具有優點的構形界定在依據申請專利範 圍中。 15圖式簡單說明 以下將藉由實施例詳細說明本發明,其中: 第1圖顯示依據本發明的第一實施例的一行動發光二 極體(LED)燈的一概略圖; 第2圖顯示依據本發明的第—實施例的數個行動發光 20二極體(LED)燈,且其間備有機械性連接的配置; 第3圖顯示依據本發明的第—實施例的另一種數個行 動發光二極體(LED)燈的配置之一實例; 第4圖顯示依據第一實施例的—改良的四個行動發光 二極體(LED)燈的一配置; 200923246 第5圖為依據s亥第二貫施例的一行動發光二極體(LED) 燈; 第6圖顯示依據本發明的第二實施例的一第一改良的 一行動發光二極體(LED)燈;以及 5 第7圖為依據本發明的第三實施例的行動發光二極體 (LED)燈的一電路配置。 t資施方式3 較佳實施例之詳細說明 第1圖顯示依據本發明的一第—實施例的一行動發光 10 —極體(LED)燈1。此種行動LED燈在以下說明中稱為 ''隨 身^LED燈〃,且其具有一環形殼體部2,該部份為一底部 所限制’如第1圖中所示。 第1圖中所示的底部具有背對觀看者的側邊上的一固 疋裝置,其可為,譬如,一黏接表面,一維可牢(Velcr〇)( 一 種尼龍刺黏扣)表面,或一磁性表面。如此,行動1^〇燈1 可暫時性地或永久性快速固定至一所欲位置。 一反射器4徑向地備置在行動led燈1的環形殼體部2 内部,而發光二極體6a、b、c以一 120。的角度容納在該反 射器4中。發光二極體最好設計成使得他們產生白光,因 此’譬如’ 一手電筒的功能可為較小型的行動LED燈所完 成。最好是一弓形部8的一操作部份徑向地備置在發光二極 體6a、b、c内,藉由此操作,反射器4可朝向未顯示的底部, 破驅動地進入環形殼體部2中。藉由該弓形部8,一按鈕被 才呆作’其在操作後轉換至其關閉的狀態,其中按鈕為一操 8 200923246 作控制電路的—部份,而通過它發光二極體6a b、c的一 控制電路可被操作。 η反射裔4的前表面定位成毗連朝向第1圖的觀看者的環 Α殼體。Ρ2的七表面。在第丨圖中所示的底部及朝向觀看者 5的壤形殼體部2的壁之間,三個磁性構件10a、b、c相互以 120度的一角度距離圍繞著反射器4,且貼近它地分佈。磁 I·生構件l〇a、b、c設計成使得一磁場備置在環形殼體部2的 外圓周12之外。磁性構件1〇a、b、钟的兩個磁鐵具有不同 的磁極。 1〇 磁性構件1〇a、l〇b、10c備置在環形殼體部中,且可配 置成,譬如,在環形殼體部2的底部或任何内壁部上。固定 可藉由’譬如,黏著劑完成。 第2圖顯示依據第一實施例的五個行動LED燈1、20、 30 40、50。假定磁性構件1〇3形成一北極,而磁性構件勘 15形成一南極。依次,行動LED燈20的磁性構件2〇a為一北 極,而行動LED燈20的磁性構件20b為一南極。行動LED燈 20的磁性構件2〇b為一南極,而行動LED燈50的磁性構件 40a為一北極。行動led燈30的磁性構件3〇a為一北極。因 此’另三個行動LED燈卜30、40可支持在行動LED燈20上, 20其中磁性構件、20a,磁性構件20b、30a以及磁性構件 20c、40a以磁力相互連接。 如第2圖所示,行動LED燈10、30、40可配置成繞著行 動LED燈20,且可以磁力連接至後者。因此,由行動lED 燈可形成圖樣或符號,且可形成流動的照明。 200923246 此外,一行動LED燈50顯示在第2圖中,其藉由磁性構 件50a以磁力固定至行動LED燈30的磁性構件30b。依據本 發明的第一實施例,藉由行動LED燈1的三個磁性構件 10a、b、c,行動LED燈可形成較大的照明區。此種照明區 5 可容易地再次拆解成個別的行動LED燈。因此,本發明的 行動LED燈可滿足臨時增加照明的需求。 第3圖顯示行動LED燈的另一種應用,其中顯示依據第 一實施例的4個燈。行動LED燈1、20、30、40結合成燈組 14。行動LED燈的相同燈組16、18 ®比連燈組14而配置。燈 10 組16的行動LED燈40配置在燈組14的行動LED燈1、30之 間,而燈組18的行動LED燈1配置在行動LED燈30、40之 間;如此,在所欲的一小區域中可完成一高強度的照明。 個別燈組14、16、18最好不相互以磁鐵相連接。 第4圖顯示依據第一實施例的行動LED燈的一改良,在 15 第1至3圖中,磁性構件10a、b、c已相互以120°角配置在環 形殼體部上,或十分貼近該殼體部。本發明不限於三個磁 性構件之配置。然而,當一磁性構件備置在一行動LED燈 上時,可在行動LED燈之間建立一連接,而具有另一磁極 的另一磁性構件備置在另一行動LED燈上。若需要設計不 20 同的行動LED燈,則是一項缺點。 為了可以使用具有類似設計的行動LED燈,最好可使 用至少兩個固定裝置,即,在第一實施例中,使用兩個具 有不同極性性的磁性構件。然而,亦可使用超過三個磁性 構件。譬如,可想像在第3圖備置六個毗連一行動LED燈的 10 200923246 " 外週邊的磁性構件。 在第4圖中,兩個磁性構件以直角配置,藉由它們,四 個行動LED燈22、32、42、52可組合成一燈組。最好另兩 個以週邊方向形成的磁性構件相互以直角備置在行動LED 5 燈22、32、42、52上,俾以藉由該行動LED燈形成一規則 的大範圍區域。 第5及6圖與第二實施例以及/或其改良有關。 在依據第5圖中所示的第二實施例的一LED燈60中,殼 ^ 體62具有一橢圓形’而一同樣是橢圓形的反射器64備置在 10 殼體62中,該反射器具有三個發光二極體66a、b、c備置在 縱向A的外邊緣68、69之附近,具有相反的極性的磁性構件 70a、70b形成在行動LED燈60上。該行動LED燈60可以磁力 相互縱向地連接,因此可形成成排的相同照明。當在發光 二極體60a的外邊緣68及中心之間的距離被稱為、、a〃,且發 15 光二極體66a及66b的中心,以及發光二極體66b及66c的中 心之間的距離被稱為〃,而發光二極體66c的中心及外邊 、 緣69之間的距離被稱為、a〃時,當選擇距離b為距離a的一 倍時,一規則的發光二極體之配置可備置在數個以磁力連 接至另一規則配置的發光二極體上。 20 第6圖顯示第5圖中的第二實施例的一改良。在此改良 中的行動LED燈80與第5圖中的行動LED燈60之不同僅在 於額外配置的磁性構件82a、82b,以及磁性構件84a、84b, 其配置成毗連相對於殼體的縱側邊86、88。 本發明不限於在行動LED燈之間的磁力連接,任何機 11 200923246 械性的連接可備置在其間, h 你,、j 5如插座-插頭連接器。 $為依據未顯料圖巾的第三實施㈣行動咖燈, 电插頭_插座連接器取代磁力構件。譬如,可備置一指 頭取代代表北極的一磁性構件 再仟而—插座可取代代表一南 極的一磁性構件。 、可選擇地,在行動LED燈上,僅備置插座,而雙播頭 可通過其巾備置在該插頭的相對端部上。如此,在行動咖 燈之間可備置機械性的連接。 藉由插頭及插座而備置的—機械性連接之優點在心 Π)動LED燈的所有的發光二極體的控制電子零件可經由^ 械性連接而開關。 第7圖顯示電子電路的—實例,該電路包括發光二極題 96a、96b及96c的電壓供應器9〇,操作電路92以及控制電袼 94。該等發光二極體可構成第一實施例的發光二極體“、 15 6b、6c,或第二實施例的發光二極體66a、b、c。 在δ亥操作電路92中,配置一按鈕98,經由它控制電略 92可轉換至一界定的狀態,即,它可開啟或關閉。在操作 電路92及控制電路94之間備置連接接點丨00,而第三實施例 的行動LED燈經由該等接點藉上述的插座_插頭配置連镇复 2〇 相同設計的其他行動LED燈。 第三實施例不限於一對連接接點,其亦可如第一及苐 二實施例一樣地備置兩對三對或更多對,俾以建立一電建 接至最好具有相同設計的毗連行動led燈。 若是依據第三實施例,在第7圖中所示的兩個行動 12 200923246 燈的電路之間經由連接接點100備置—電氣連接,則若按鈕 98的單一操作與連接接點100是同步時,則在該兩個動作之 後,發光二極體的控制電路狀態是最佳的,因此,以電氣 連接的LED燈可經由行動LED燈的操作電路92之_而開 5 關。 本發明不限於第一實施例的行動LED燈1,或第二實施 例的行動LED燈60僅可連接至具有相同設計的各別行動 LED燈。不同設計的行動LED燈亦可相互連接,只要個別 的連接概念可相配合即可。譬如,數個行動LED燈60可以 10磁力固定至一行動LED燈1,俾以完成一所欲的照明概念。200923246 IX. INSTRUCTIONS: TECHNICAL FIELD OF THE INVENTION C FIELD OF THE INVENTION The present invention relates to a mobile light emitting diode (LED) lamp. 5 [Prior Art] Background of the Invention A battery is charged and has a fixing device to replace a conventional lamp, such as a flashlight, and a mobile LED lamp has a new application field. Osram called this line of 'light LED lights, and turned on. The voltage is supplied as a commercial battery, while the illuminating 10 diode vacuum tube produces white light. A button connected to the reflector of the light-emitting diode allows the action LED lamp to be easily operated. ''Thinking with the light' LED lights are usually made in the shape of a disc and become a linear configuration consisting of three light-emitting diodes. A low light function can also be integrated into a mobile LED (LED) lamp. 15 This small LED lamp allows low power consumption, consumes low operating power, produces / 'less heat; and distributes light in a particularly small shape to a certain direction, \ : However, it is often difficult to use several common Directional radiation with this form of action light-emitting diode (LED) lamp. [Brightness] 20 SUMMARY OF THE INVENTION It is an object of the present invention to provide a mobile light emitting diode (LED) lamp that allows for the simple use of directed radiation of a plurality of mobile light emitting diode (LED) lamps. This purpose can be achieved for the invention defined in the first claim. The invention provides a mobile light emitting diode (LED) lamp comprising at least - 5 200923246 mechanical or magnetic connecting element, by which it is possible to establish a mechanical LED or a magnetic LED with the same or the same design. connection. Thus, a plurality of lamps can be connected to form a pattern or symbol. The best-action light-emitting diode (LED) lamp and the other-action LED (LED) lamp can be charged by the battery without the need for wires. In addition, the 'single-emitting diode (LED) lamp and the other-body (LED) lamp may include a fixed device. As such, they can be easily erected to the vicinity of the wall to be illuminated, or other suitable surface or object. 10 action light 4 gift (LED) shape another - (four) material diode (led) lamp preferably displays at least three LED elements, which can be operated simultaneously, so that sufficient light intensity illumination can be achieved by light according to the conventional technique The polar body is completed. As a connecting element, the action light LED and the other action light emitting diode (LED) lamp may comprise at least two magnets of different polarities. Therefore, with only a small number of devices, a safety erection suitable for temporary illumination and easy to disassemble can be prepared. The action light emitting diode (LED) lamp and (iv) another actuated light emitting diode (LED) lamp may have an elliptical shape and may have at least two (four) magnets of different polarities with opposite ends. Therefore, illumination can be achieved even in a narrow space and a long strip of light can be formed. The action light-emitting diode (LE striker (4) and the other-action light-emitting diode (LED) lamp are preferably substantially disk-shaped, so that a large area of illumination can be completed. Preferably, three magnets are placed at intervals of 120 degrees. Narita is even the action LED (the outer periphery of the xenon lamp. Therefore, the four coffee lights can be magnetically fixed to each other 20 200923246, and a set of LED lamps with a set of LED lamps can be configured to illuminate the area together. Component. 'It can be the same as the other to form a large in a simple way. The action LED (LED) lamp and/or the other action 5 LED (LED) lamp can be included as a connection. At least one socket of the component for receiving a plug, so that an electrical connection can be obtained by mechanical connection. Via the socket, an electrical signal can be transmitted from the action LED (LED) lamp to the LED lamp 'Therefore, when the action illuminating 10 diode (LED) lamp is turned on, the other action LED (LED) lamp can be turned on by the signal. The opening operation of several LED lamps can be generally performed in this manner. Carry out. Advantageous configurations are defined in the scope of the patent application. 15 BRIEF DESCRIPTION OF THE DRAWINGS The invention will be described in detail below by way of example, in which: FIG. 1 shows a mobile light emitting diode according to a first embodiment of the present invention. A schematic diagram of a (LED) lamp; FIG. 2 shows a plurality of action-emitting 20-diode (LED) lamps according to the first embodiment of the present invention, with a mechanically connected configuration therebetween; An example of another configuration of a plurality of action light-emitting diode (LED) lamps of the first embodiment of the present invention; and FIG. 4 shows an improved four-action light-emitting diode (LED) according to the first embodiment. A configuration of the lamp; 200923246 Fig. 5 is a mobile light emitting diode (LED) lamp according to the second embodiment of the shai; Fig. 6 shows a first modified action according to the second embodiment of the present invention Light-emitting diode (LED) lamp; and FIG. 7 is a circuit configuration of a mobile light-emitting diode (LED) lamp according to a third embodiment of the present invention. t-application mode 3 Detailed description of the preferred embodiment Figure 1 shows an action in accordance with a first embodiment of the present invention. 10 - Pole lamp (LED) lamp 1. This action LED lamp is referred to as ''Portable LED lamp 〃' in the following description, and it has an annular casing portion 2, which is limited by a bottom portion 1 is shown in the figure. The bottom shown in Fig. 1 has a fixing device on the side facing away from the viewer, which may be, for example, an adhesive surface, one-dimensional Velcro (a type of Velcr) Nylon shackle) surface, or a magnetic surface. Thus, the action 1 can be temporarily or permanently fastened to a desired position. A reflector 4 is radially placed in the ring of the action led lamp 1. The inside of the casing portion 2, and the light-emitting diodes 6a, b, c are at a level 120. The angle is accommodated in the reflector 4. The light-emitting diodes are preferably designed such that they produce white light, so that the function of a flashlight can be accomplished for smaller mobile LED lights. Preferably, an operating portion of an arcuate portion 8 is radially disposed within the light-emitting diodes 6a, b, c, by which the reflector 4 can be driven into the annular housing in a driving manner toward the bottom not shown. In Part 2. With the arcuate portion 8, a button is left as 'they switch to its closed state after the operation, wherein the button is a part of the control circuit 200923246, and the light-emitting diode 6a b is passed through it. A control circuit of c can be operated. The front surface of the η-reflector 4 is positioned adjacent to the ring-shaped housing of the viewer of Fig. 1. The seven surfaces of Ρ2. Between the bottom shown in the second diagram and the wall of the loft housing portion 2 facing the viewer 5, the three magnetic members 10a, b, c surround the reflector 4 at an angular distance of 120 degrees from each other, and Close to it. The magnetic members 1a, b, c are designed such that a magnetic field is placed outside the outer circumference 12 of the annular casing portion 2. The two magnets of the magnetic members 1a, b, and the bell have different magnetic poles. The magnetic members 1a, l, b, 10c are provided in the annular casing portion and may be arranged, for example, on the bottom or any inner wall portion of the annular casing portion 2. Fixation can be accomplished by, for example, an adhesive. Figure 2 shows five action LED lights 1, 20, 30 40, 50 in accordance with a first embodiment. It is assumed that the magnetic member 1〇3 forms a north pole and the magnetic member 15 forms a south pole. In turn, the magnetic member 2A of the action LED lamp 20 is a north pole, and the magnetic member 20b of the action LED lamp 20 is a south pole. The magnetic member 2'b of the action LED lamp 20 is a south pole, and the magnetic member 40a of the action LED lamp 50 is a north pole. The magnetic member 3〇a of the action led lamp 30 is an north pole. Therefore, the other three action LED lamps 30, 40 can be supported on the action LED lamp 20, 20 wherein the magnetic member, 20a, the magnetic members 20b, 30a, and the magnetic members 20c, 40a are magnetically connected to each other. As shown in Fig. 2, the action LED lights 10, 30, 40 can be configured to travel around the LED lamp 20 and can be magnetically coupled to the latter. Thus, a pattern or symbol can be formed by the action lED lamp and can form a flowing illumination. Further, a action LED lamp 50 is shown in Fig. 2, which is magnetically fixed to the magnetic member 30b of the action LED lamp 30 by the magnetic member 50a. According to the first embodiment of the present invention, by operating the three magnetic members 10a, b, c of the LED lamp 1, the action LED lamp can form a larger illumination area. This illumination zone 5 can be easily disassembled into individual action LED lights. Therefore, the action LED lamp of the present invention can meet the need for temporary increase in illumination. Figure 3 shows another application of a mobile LED lamp in which four lamps in accordance with the first embodiment are shown. The action LED lights 1, 20, 30, 40 are combined into a light group 14. The same lamp group 16, 18® of the action LED lamp is configured than the lamp group 14. The action LEDs 40 of the group 10 of lamps 10 are disposed between the action LEDs 1, 30 of the light group 14, and the action LEDs 1 of the group 18 are disposed between the action LEDs 30, 40; thus, in the desired A high intensity illumination can be achieved in a small area. Preferably, the individual lamp sets 14, 16, 18 are not connected to each other by a magnet. Figure 4 is a view showing an improvement of the action LED lamp according to the first embodiment. In Figures 15 to 3, the magnetic members 10a, b, c have been disposed on the annular casing portion at an angle of 120° to each other, or are very close. The housing portion. The invention is not limited to the configuration of three magnetic members. However, when a magnetic member is placed on a mobile LED lamp, a connection can be established between the action LED lamps, and another magnetic member having another magnetic pole is placed on the other action LED lamp. If you need to design a mobile LED light that is not the same, it is a disadvantage. In order to be able to use a mobile LED lamp having a similar design, it is preferable to use at least two fixing means, i.e., in the first embodiment, two magnetic members having different polarities are used. However, more than three magnetic members can also be used. For example, imagine that in Figure 3, six magnetic components of the outer periphery of a single adjacent LED LED are placed. In Fig. 4, the two magnetic members are arranged at right angles, by which the four action LED lamps 22, 32, 42, 52 can be combined into one lamp group. Preferably, the other two magnetic members formed in the peripheral direction are disposed at right angles to each other on the action LED 5 lamps 22, 32, 42, 52 to form a regular large-area region by the action LED lamps. Figures 5 and 6 relate to the second embodiment and/or its improvements. In an LED lamp 60 according to the second embodiment shown in Fig. 5, the housing 62 has an elliptical shape and an equally elliptical reflector 64 is disposed in the 10 housing 62. Three light-emitting diodes 66a, b, c are provided in the vicinity of the outer edges 68, 69 of the longitudinal direction A, and magnetic members 70a, 70b having opposite polarities are formed on the action LED lamp 60. The action LEDs 60 can be magnetically coupled to each other longitudinally so that the same illumination can be formed in a row. When the distance between the outer edge 68 of the light-emitting diode 60a and the center is referred to as , , , and between the centers of the light-emitting diodes 66 a and 66 b and the centers of the light-emitting diodes 66 b and 66 c The distance is called 〃, and the distance between the center and the outer edge of the light-emitting diode 66c and the edge 69 is called a 〃, when the distance b is selected to be twice the distance a, a regular light-emitting diode The configuration can be placed on several light-emitting diodes that are magnetically connected to another regular configuration. 20 Fig. 6 shows a modification of the second embodiment in Fig. 5. The action LED lamp 80 in this modification differs from the action LED lamp 60 in FIG. 5 only in the additionally disposed magnetic members 82a, 82b, and the magnetic members 84a, 84b configured to abut the longitudinal side of the housing Side 86, 88. The invention is not limited to the magnetic connection between the action LED lights, any mechanical connection can be placed between them, h you, j 5 such as socket-plug connectors. $ is based on the third implementation of the unobserved towel (4) mobile coffee light, electric plug _ socket connector replaces the magnetic component. For example, a finger can be provided instead of a magnetic member representing the north pole. The socket can replace a magnetic member representing a south pole. Alternatively, on the action LED light, only the socket is provided, and the dual head can be placed on the opposite end of the plug through its towel. In this way, a mechanical connection can be made between the mobile coffee lights. The advantage of the mechanical connection provided by the plug and the socket is that the control electronic components of all the LEDs of the moving LED lamp can be switched by mechanical connection. Figure 7 shows an example of an electronic circuit comprising a voltage supply 9A of the light-emitting diodes 96a, 96b and 96c, an operating circuit 92 and a control circuit 94. The light-emitting diodes may constitute the light-emitting diodes "1, 15 6b, 6c of the first embodiment, or the light-emitting diodes 66a, b, c of the second embodiment. In the δH operation circuit 92, a The button 98, via which the control circuit 92 can be switched to a defined state, that is, it can be turned on or off. A connection contact 丨00 is provided between the operation circuit 92 and the control circuit 94, and the action LED of the third embodiment The lamp is connected to the other action LED lamps of the same design through the above-mentioned socket_plug configuration via the contacts. The third embodiment is not limited to a pair of connection contacts, and may be the same as the first and second embodiments. Two pairs of three pairs or more pairs are provided to establish an electrical connection to a contiguous action led lamp preferably having the same design. According to the third embodiment, the two actions 12 shown in Fig. 7 200923246 The circuits of the lamp are electrically connected via the connection contact 100. If the single operation of the button 98 is synchronized with the connection contact 100, the control circuit state of the LED is optimal after the two actions. Therefore, the LED lights that are electrically connected can pass The operation LED 92 of the action LED lamp is turned on. The present invention is not limited to the action LED lamp 1 of the first embodiment, or the action LED lamp 60 of the second embodiment can be connected only to the respective action LEDs having the same design. Lights. Different design of action LED lights can also be connected to each other, as long as the individual connection concepts can be matched. For example, several mobile LED lights 60 can be magnetically fixed to a mobile LED light 1 to complete a desired Lighting concept.
【圖式簡單說明:J 第1圖顯示依據本發明的第一實施例的一行動發光二 極體(LED)燈的一概略圖; 第2圖顯示依據本發明的第一實施例的數個行動發光 15 二極體(led)燈,且其間備有機械性連接的配置; 第3圖顯示依據本發明的第一實施例的另一種數個行 動發光二極體(LED)燈的配置之一實例; 第4圖顯示依據第一實施例的一改良的四個行動發光 二極體(LED)燈的一配置; 20 第5圖為依據該第二實施例的一行動發光二極體(LED) 燈; 第6圖顯示依據本發明的第二實施例的一第一改良的 —行動發光二極體(LED)燈;以及 第7圖為依據本發明的第三實施例的行動發光二極體 13 200923246 (LED)燈的一電路配置。 【主要元件符號說明】 l···發光二極體(LED)燈 30a…磁性構件 2…環形殼體部 30b···磁性構件 4…反射器 32…LED燈 6a…發光二極體 40…LED燈 6b…發光二極體 40a···磁性構件 6c···發光二極體 42…LED燈 8…弓形部 50…LED燈 10a…磁性構件 50a···磁性構件 10b…磁性構件 52…LED燈 10c···磁性構件 60…LH)燈 12…外週邊 62…殼體 14···燈組 64…反射器 16…燈組 66a…發光二#體 18…燈組 66b…發光二Μ 20…LED燈 66c…發光二#體 20a···磁性構件 68…外邊緣 20b···磁性構件 69…外邊緣 20c···磁性構件 70a…磁性構件 22--LED 燈 70b…磁性構件 30·-LED 燈 80 ".LED 燈 14 200923246 82a···磁性構件 92…操作電路 82b···磁性構件 94···控制電路 84a···磁性構件 96a…發光二極體 84b···磁性構件 96b· ··發光二極體 86…縱側邊 96c…發光二極體 88…縱側邊 98…按紐 90…電壓供應器 100···接點 15BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a mobile light emitting diode (LED) lamp according to a first embodiment of the present invention; FIG. 2 is a view showing a plurality of first embodiment according to the present invention. The action light 15 is a led lamp with a mechanically connected configuration therebetween; FIG. 3 shows the configuration of another plurality of action light emitting diode (LED) lamps according to the first embodiment of the present invention. An example; FIG. 4 shows a configuration of a modified four action light emitting diode (LED) lamp according to the first embodiment; 20 FIG. 5 is a mobile light emitting diode according to the second embodiment ( LED) lamp; FIG. 6 shows a first modified-action light-emitting diode (LED) lamp according to a second embodiment of the present invention; and FIG. 7 is a motion light-emitting diode according to a third embodiment of the present invention. Pole body 13 200923246 (LED) lamp a circuit configuration. [Description of main component symbols] l···Light-emitting diode (LED) lamp 30a... Magnetic member 2... Annular case portion 30b··· Magnetic member 4... Reflector 32... LED lamp 6a... Light-emitting diode 40... LED lamp 6b...light emitting diode 40a···magnetic member 6c···light emitting diode 42...LED lamp 8...arc portion 50...LED lamp 10a...magnetic member 50a···magnetic member 10b...magnetic member 52... LED lamp 10c···magnetic member 60...LH) lamp 12...outer periphery 62...housing 14···light group 64...reflector 16...light group 66a...lighting two#body18...light group 66b...lighting two 20...LED lamp 66c...Light-emitting body# body 20a···magnetic member 68...outer edge 20b···magnetic member 69...outer edge 20c···magnetic member 70a...magnetic member 22--LED lamp 70b...magnetic member 30 - LED lamp 80 " LED lamp 14 200923246 82a · Magnetic member 92 ... Operation circuit 82b · Magnetic member 94 · · Control circuit 84a · Magnetic member 96a ... Light-emitting diode 84b ··· Magnetic member 96b···light emitting diode 86...longitudinal side 96c...light emitting diode 88...longitudinal side 98...button 90 100 voltage supply contact 15 ?????