M394409 五、新型說明: 【新型所屬之技術領域】 [0001] 本新型涉及一種發光二極體燈條,尤其涉及一種出光強 度均勻的發光二極體燈條。 【先前技術】 [0002] 發光二極體(Light Emi tting Diode,LED)係一種可 將電流轉換成特定波長範圍的光的半導體元件。發光二 極體以其亮度高、工作電壓低、功耗小、易與積體電路 匹配、驅動簡單、壽命長等優點,從而可作為光源而廣 泛應用於照明領域。 [0003] 發光二極體的一種常見的應用係作為發光二極體燈條。 如圖1所示,發光二極體燈條100通常包括一長條形狀的 基板110及設置於基板上的多個發光二極體單元121,該 多個發光二極體單元121沿基板的長度方向排列。一般情 況下,該多個發光二極體單元121為等間距排佈。但這種 結構的發光二極體燈條100具有出光強度不均勻的問題, 即由於燈條中的光強分佈呈傅裏葉積分分佈,燈條中間 的光強要大於兩端的光強。另外,由於基板中間的發光 二極體的散熱距離較長,使排列在基板中間的發光二極 體產生的熱能不易消散,而造成燈條發生故障或使其壽 命減少。 【新型内容】 [0004] 有鑒於此,有必要提供一種出光均勻的發光二極體燈條 結構。 表單編號A0101 第4頁/共20頁 M394409 [0005] —種發光二極體燈條,其包括一長條形基板及設置於長 條形基板上的第一發光模組與第二發光模組。第一發光 模組設置於基板的中部,第二發光模組設置於基板的兩 端。所述第一發光模組與第二發光模組包括多個發光二 極體單元,所述發光二極體單元沿基板的長度方向間隔 排列。所述發光二極體單元的排列密度從基板的中部往 兩端增加。 [0006] 可選地,在上述發光二極體燈條結構中,同一發光模組 t相鄰發光二極體單元之間的間距相同。第一發光模組 與第二發光模組中發光二極體單元的排佈滿足以下關係 :D1>D2,其中,D1為第一發光模組中相鄰發光二極體單 元之間的間距,D2為第二發光模組中相鄰發光二極體單 元之間的間距。優選地,D1的取值約為10. 3mm,D2的 取值約為8. 8mm。 [0007] 可選地,上述發光模組進一步包括第三發光模組。第三 發光模組設置於第一發光模組與第二發光模組之間,發 光二極體單元的排佈滿足以下關係:D1>D3>D2。其中, D1為第一發光模組中相鄰發光二極體單元之間的間距, D2為第二發光模組中相鄰發光二極體單元之間的間距, D3為第三發光模組中相鄰發光二極體單元之間的間距。 可選地,D1的取值約為10. 65mm,D2的取值約為 8. 5 5mm,D3 的取值約為 9. 7 5mm。 [0008] 可選地,上述發光模組進一步包括第四發光模組。第四 發光模組設置於第一發光模組與第三發光模組之間,發 光二極體單元的排佈滿足以下關係:D1>D3>D4,其中, 表單編號A0101 第5頁/共20頁 M394409 D 4為第四發光模組中相鄰發光二極體單元之間的間距。 [0009]可選地’在上述發光二極體燈條結構中,基板上設置有 螺孔,所述螺孔设置於相鄰的發光模組之間的區域,用 以區分不同的發光模組,以及用以固定螺絲,使得發光 二極體燈條可設置於預定的裝置上。 [_可選地,在上述發光二極體燈條結構中,所述基板由多 個基板單元拼接而成,相鄰排列且彼此間距相同的發光 二極體單元設置於同一基板單元中。 [0011] 相較於先前技術,由於基板中部的發光二極體單元的排 列密度比兩端的排列密度小,使基板中間位置的出光強 度將相應變小,其兩端的出光強度將相應變大,從而使 整個發光二極體燈條具有較均勻的光強分佈。另外,由 於中部的發光二極體單元的排列密度較小,其不易造成 熱量在燈條的中部聚集而使燈條的發光性能受到影響。 / 【實施方式】 [0012] 下面以具體的實施例對本新型作進一步地說明。 [0013] 請參見圖2,本新型第一實施例提供的發光二極體燈條 200包括長條形狀的基板21〇、設置於基板21〇上的第一 發光模組220與第二發光模組230。 [0014] 請一併參見圖3,基板210的表面設置有導電線路(圖未 .示)。所述基板210可以係半導體基板、陶瓷基板、金屬 基板或印刷電路板。優選地,基板210為鋁基印刷電路板 ’其可以有效地將第一發光模組220與第二發光模組230 在工作時所產生的熱量散發到外界。根據需要,基板21〇 表單编號A0101 第6頁/共20頁 [0015] 上設置有螺孔240,該螺孔240設置於第〜發光模組22〇 與第二發光模組230之間的區域’用以區分不同的發光模 組以及與螺絲(圖未示)配合而將發光二極體燈條固定 在預定的裝置上。 第一發光模組220設置於基板210的中部。^ W迷第一發光 模組220包括多個發光二極體單元221,該多個發光_極 體單元221沿基板210的長度方向排列成—& 仃。所述發光 二極體單元221為表面貼裝型器.件(SMD) 好 — ),其電極引腳 藉由基板210表面的導電線路電性連接到外部電原上 而為發光二極體單元22!提供相應的驅動電壓或驅二= 。根據需要,發光二極體單元221之間可以係串聯連接: 並聯連接或者係混聯連接。發光二極'體單元21之門彳 間隔。在所述第一發光模組220中,相鄰發 〇〇 A^ —極體單元 221之間的間距相同,其賴表示。在本實施例中,μ的 取值約為10. 3mm 〇 [0016]第二發光模組230設置於基板210的兩端。第—發光代会 220與第二發光模組23G可以係並聯連接或者係 。所述第二發光模組230包括多個發光二極體單元2^ , 該多個發光二極體單元231沿基板210的長度方向排列成 -行。同樣地,多個發光二極體單元231之間相互間:: 列’其連接方式可以係争聯連接,並聯連接或者係思聯 連接。相鄰發光二極體單元231之間的間距相同,用的表 示。相鄰發光二極體單元231之間的間距小於第—發光模 組220中相鄰發光二極體單元221之間的間距即 。在本實施例中,D2的取值約為8. 8mm。 表單编號A0101 第7頁/共20頁 M394409 [0017] 由於相鄰發光二極體單元221之間的間距大於相鄰發光二 極體單元231之間的間距,使得基板210中部的發光二極 體單元的排列密度大於基板210兩端的發光二極體單元的 排列密度。即,基板210中部的出光強度降低,而基板 210兩端的出光強度相應增加。因此,這種結構可以避免 發光二極體單元等間距排列所造成的中間出光強度高, 兩端出光強度低的現象,從而使整個發光二極體燈條200 出光均勻。另外,由於基板210中間位置的發光二極體單 元221的排列密度較低,可以避免發光二極體單元221在 正常工作時產生的熱量在基板210的中間位置聚集而造成 燈條故障或使用壽命減少。 [0018] 請參見圖4,本新型第二實施例的發光二極體燈條300包 括長條形狀的基板310、設置於基板310上的第一發光模 組320與第二發光模組330。第一發光模組320設置於基 板310的中部,第二發光模組330設置於基板310的兩端 。所述發光二極體燈條300還包括第三發光模組340,所 述第三發光模組340設置於第一發光模組320與第二發光 模組330之間。 [0019] 第一發光模組320、第二發光模組330與第三發光模組 340分別包括多個發光二極體單元321、多個發光二極體 單元331與多個發光二極體單元341。並且,在同一個發 光模組中,相鄰兩個發光二極體單元的間距相等。第一 發光模組320中相鄰發光二極體單元321的間距用D1表示 ,第二發光模組330中相鄰發光二極體單元331的間距用 D2表示,第三發光模組340中相鄰發光二極體單元341的 表單编號A0101 第8頁/共20頁 M394409 間距用D3表示。發光二極體單元的排佈滿足以下關係, D1>D3>D2。在本實施例中,D1的取值約為10. 65mm, D2的取值約為8. 55mm ’ D3的取值約為9. 75mm。這種結 構的發光二極體燈條·3〇〇同樣可實現燈條中間部位發光二 極體單元的排佈密度較低,燈條兩端的發光二極體單元 的排佈密度較高,從而使整個發光二極體燈條300的出光 強度分佈均勻。根據需要’在基板的相鄰兩個發光模組 之間的區域亦可以設置螺孔用於區分不同的發光模組。 [0020] 請參見圖5,本新型第三實施例的發光二極體燈條400包 括長條形狀的基板410、設置於基板410上的第一發光模 組420、第二發光模組430第三發先;模組440及第四發 光模組450。在本實施例中,第光模組420設置於基 ..: .... - 板410的中部,第二發光模組430設置於基板410的兩端 。第三發光模組440設置於第一發光模組420與第二發光 模組430之間,並且第四發光模組450設置於第一發光模 组420與第三發光模組440之間。發光模組420、430、 440、450分別包括多個發光二極體單元421、431、441 、451。並且,同一發光模組中相鄰兩個發光二極體單元 的間距相等。發光二極體單元421之間的間距用D1表示, 發光二極體單元431之間的間距用D2表示,發光二極體單 元441之間的間距用D3表示,發光二極體單元451之間的 間距用D4表示。上述發光二極體單元沿基板410的長度方 向排列,且其排佈方式滿足以下關係:D1>D3>D2及 D1>D3>D4。在本實施例中,由於發光二極體單元451之 間的間距小於發光二極體單元441之間的間距,因此在整 表單编號A0101 第9頁/共20頁 個發光二極體燈條中,間距不同的發光模組中將形成一 種交錯分佈的結構,即對於中間任意個發光模組來說, 其發光二極體的排列間距或者同時比與其相鄰兩個發光 模組中發光二極體的排列間距大,或者同時比與其相鄰 兩個發光模組中發光二極體的排列間距小。發光二極體 單元的這種排佈方式同樣可使光強分佈均勻及改善其散 熱效果。 [0021] 根據需要,發光二極體燈條的長條形基板可以拆分成多 個基板單元。如圖6所示,本新型第四實施例的發光二極 體燈條500包括長條形狀的基板510、設置於基板510上 的第一發光模組5 2 0與第二發光模組5 3 0。第一發光模組 52 0設置於燈條的中心區域位置,第二發光模組530設置 於燈條的兩端。其中,第一發光模組520中發光二極體單 元521彼此相鄰的間距大於第二發光模組530中發光二極 體單元521彼此相鄰的間距。與第一實施例不同的係,本 實施例的基板510分為多個基板單元511、基板單元512 與基板單元513。第一發光模組520設置於第一基板單元 511表面,燈條兩端的兩個第二發光模組530分別設置於 基板單元512與基板單元513表面。藉由將基板510分為 多個基板單元511、512、513,當燈條的某一部分損壞 而需要更換時,可以只更換其中一個基板單元,從而節 約了成本。 [0022] 综上所述,本新型確已符合新型專利之要件,遂依法提 出專利申請。惟,以上所述者僅為本新型之較佳實施方 式,自不能以此限制本案之申請專利範圍。舉凡熟悉本 表單編號A0101 第10頁/共20頁 M394409M394409 V. New description: [New technical field] [0001] The present invention relates to a light-emitting diode light bar, and more particularly to a light-emitting diode light bar with uniform light intensity. [Prior Art] [0002] A Light Emitting Diode (LED) is a semiconductor element that converts a current into light of a specific wavelength range. The light-emitting diode is widely used in the field of illumination because of its high brightness, low operating voltage, low power consumption, easy matching with integrated circuits, simple driving, and long life. [0003] A common application of light-emitting diodes is as a light-emitting diode strip. As shown in FIG. 1 , the LED strip 100 generally includes a long substrate 110 and a plurality of LED units 121 disposed on the substrate. The plurality of LED units 121 are along the length of the substrate. Arrange in the direction. In general, the plurality of light emitting diode units 121 are arranged at equal intervals. However, the light-emitting diode light bar 100 of this structure has a problem of uneven light intensity, that is, since the light intensity distribution in the light bar has a Fourier integral distribution, the light intensity in the middle of the light bar is greater than the light intensity at both ends. In addition, since the heat-dissipating distance of the light-emitting diode in the middle of the substrate is long, the heat energy generated by the light-emitting diode arranged in the middle of the substrate is not easily dissipated, causing the light bar to malfunction or reduce its life. [New content] [0004] In view of the above, it is necessary to provide a light-emitting diode light bar structure with uniform light emission. Form No. A0101 Page 4 of 20 M394409 [0005] A light-emitting diode light bar comprising an elongated substrate and a first light-emitting module and a second light-emitting module disposed on the elongated substrate . The first light emitting module is disposed at a middle portion of the substrate, and the second light emitting module is disposed at both ends of the substrate. The first light emitting module and the second light emitting module comprise a plurality of light emitting diode units, and the light emitting diode units are arranged at intervals along a length direction of the substrate. The arrangement density of the light emitting diode units increases from the middle of the substrate to both ends. [0006] Optionally, in the above-mentioned light-emitting diode light bar structure, the spacing between adjacent light-emitting diode units of the same light-emitting module t is the same. The arrangement of the light emitting diode units in the first light emitting module and the second light emitting module satisfies the following relationship: D1 > D2, wherein D1 is the spacing between adjacent light emitting diode units in the first light emitting module D2 is the spacing between adjacent light emitting diode units in the second light emitting module. 8毫米。 The value of D2 is about 8. 8mm. [0007] Optionally, the lighting module further includes a third lighting module. The third illuminating module is disposed between the first illuminating module and the second illuminating module, and the arrangement of the illuminating diode unit satisfies the following relationship: D1 > D3 > D2. Wherein D1 is the spacing between adjacent LED units in the first lighting module, D2 is the spacing between adjacent LED units in the second lighting module, and D3 is in the third lighting module. The spacing between adjacent light emitting diode elements. Optionally, the value of D1 is about 10.65 mm, the value of D2 is about 8.5 mm, and the value of D3 is about 9.7 5 mm. Optionally, the lighting module further includes a fourth lighting module. The fourth illuminating module is disposed between the first illuminating module and the third illuminating module, and the arrangement of the illuminating diode unit satisfies the following relationship: D1 > D3 > D4, wherein, the form number A0101 is 5 Page 20 M394409 D 4 is the spacing between adjacent light-emitting diode units in the fourth lighting module. [0009] Optionally, in the above-mentioned light-emitting diode light bar structure, a screw hole is disposed on the substrate, and the screw hole is disposed in an area between adjacent light-emitting modules to distinguish different light-emitting modules. And fixing screws, so that the light-emitting diode light bar can be disposed on a predetermined device. [ </ RTI> In the above-mentioned light-emitting diode strip structure, the substrate is formed by splicing a plurality of substrate units, and the light-emitting diode units arranged adjacent to each other and having the same pitch are disposed in the same substrate unit. [0011] Compared with the prior art, since the arrangement density of the light-emitting diode units in the middle of the substrate is smaller than the arrangement density of the two ends, the light-emitting intensity at the intermediate position of the substrate will be correspondingly smaller, and the light-emitting intensity at both ends will be correspondingly larger. Thereby, the entire LED strip has a relatively uniform light intensity distribution. In addition, since the arrangement density of the light-emitting diode units in the middle portion is small, it is less likely to cause heat to accumulate in the middle of the light bar, which affects the light-emitting performance of the light bar. [Embodiment] [0012] The present invention will be further described below with reference to specific embodiments. [0013] Referring to FIG. 2, a light-emitting diode light bar 200 according to a first embodiment of the present invention includes a long-shaped substrate 21A, a first light-emitting module 220 and a second light-emitting module disposed on the substrate 21A. Group 230. [0014] Referring to FIG. 3 together, the surface of the substrate 210 is provided with a conductive line (not shown). The substrate 210 may be a semiconductor substrate, a ceramic substrate, a metal substrate, or a printed circuit board. Preferably, the substrate 210 is an aluminum-based printed circuit board, which can effectively dissipate the heat generated by the first light-emitting module 220 and the second light-emitting module 230 during operation to the outside. A screw hole 240 is disposed on the substrate 21 〇 Form No. A0101, page 6 / 20 pages [0015], and the screw hole 240 is disposed between the first illuminating module 22 〇 and the second illuminating module 230 The area 'is used to distinguish different lighting modules and cooperate with screws (not shown) to fix the LED strips on a predetermined device. The first light emitting module 220 is disposed at a middle portion of the substrate 210. The first light-emitting module 220 includes a plurality of light-emitting diode units 221 which are arranged along the length direction of the substrate 210 to be & The LED unit 221 is a surface mount type device (SMD), and the electrode pins are electrically connected to an external electric source through a conductive line on the surface of the substrate 210 to be a light emitting diode unit. 22! Provide the corresponding drive voltage or drive two =. The light-emitting diode units 221 may be connected in series as needed: in parallel connection or in a hybrid connection. The threshold of the light-emitting diode 'body unit 21 is spaced. In the first light-emitting module 220, the spacing between adjacent hair-emitting cells 221 is the same, and the singulation is represented. In the present embodiment, the value of μ is about 10.3 mm. [0016] The second light emitting module 230 is disposed at both ends of the substrate 210. The first light-emitting assembly 220 and the second light-emitting module 23G may be connected or connected in parallel. The second light emitting module 230 includes a plurality of light emitting diode units 221 arranged in a row along the length direction of the substrate 210. Similarly, the plurality of light-emitting diode units 231 can be connected to each other in a series:: column, and can be connected in parallel, connected in parallel or connected in series. The spacing between adjacent light-emitting diode units 231 is the same, as used. The spacing between adjacent light emitting diode units 231 is smaller than the spacing between adjacent light emitting diode units 221 in the first light emitting module 220. 8毫米。 The value of D2 is about 8. 8mm. Form No. A0101 Page 7 / Total 20 pages M394409 [0017] Since the spacing between adjacent light emitting diode units 221 is larger than the spacing between adjacent light emitting diode units 231, the light emitting diodes in the middle of the substrate 210 are made. The arrangement density of the body cells is greater than the arrangement density of the light emitting diode cells at both ends of the substrate 210. That is, the light intensity at the center of the substrate 210 is lowered, and the light intensity at both ends of the substrate 210 is correspondingly increased. Therefore, the structure can avoid the phenomenon that the intermediate light-emitting intensity is high and the light-emitting intensity at both ends is low due to the equidistant arrangement of the light-emitting diode units, so that the entire light-emitting diode light strip 200 emits light uniformly. In addition, since the arrangement density of the LED unit 221 at the intermediate position of the substrate 210 is low, heat generated during the normal operation of the LED unit 221 can be prevented from accumulating in the middle position of the substrate 210, thereby causing lamp failure or service life. cut back. [0018] Referring to FIG. 4, the LED strip 300 of the second embodiment of the present invention includes a substrate 310 having a long shape, a first illuminating module 320 and a second illuminating module 330 disposed on the substrate 310. The first light emitting module 320 is disposed at a middle portion of the substrate 310, and the second light emitting module 330 is disposed at both ends of the substrate 310. The LED module 300 further includes a third lighting module 340 disposed between the first lighting module 320 and the second lighting module 330. [0019] The first light emitting module 320, the second light emitting module 330, and the third light emitting module 340 respectively include a plurality of light emitting diode units 321, a plurality of light emitting diode units 331 and a plurality of light emitting diode units. 341. Moreover, in the same light emitting module, the distance between adjacent two light emitting diode units is equal. The spacing of the adjacent light-emitting diode units 321 in the first light-emitting module 320 is represented by D1, and the spacing of the adjacent light-emitting diode units 331 in the second light-emitting module 330 is represented by D2, and the third light-emitting module 340 is in phase. Form number A0101 of the adjacent light-emitting diode unit 341 Page 8 of 20 M394409 The pitch is indicated by D3. The arrangement of the light-emitting diode units satisfies the following relationship, D1 > D3 > D2. In the present embodiment, the value of D1 is about 7.5 mm. The light-emitting diode lamp strip of the structure can also realize the lower arrangement density of the light-emitting diode unit in the middle part of the light bar, and the arrangement density of the light-emitting diode unit at both ends of the light bar is high, thereby The light intensity distribution of the entire LED strip 300 is made uniform. Screw holes may be provided in the area between adjacent two light-emitting modules of the substrate as needed to distinguish different light-emitting modules. [0020] Referring to FIG. 5, the LED light bar 400 of the third embodiment of the present invention includes a substrate 410 having a long shape, a first light emitting module 420 disposed on the substrate 410, and a second light emitting module 430. Three-shot first; module 440 and fourth lighting module 450. In this embodiment, the first light module 420 is disposed at a middle portion of the base plate 410. The second light emitting module 430 is disposed at both ends of the substrate 410. The third lighting module 440 is disposed between the first lighting module 420 and the second lighting module 430, and the fourth lighting module 450 is disposed between the first lighting module 420 and the third lighting module 440. The light emitting modules 420, 430, 440, and 450 respectively include a plurality of light emitting diode units 421, 431, 441, and 451. Moreover, the distance between adjacent two light emitting diode units in the same light emitting module is equal. The spacing between the light emitting diode units 421 is represented by D1, the spacing between the light emitting diode units 431 is represented by D2, and the spacing between the light emitting diode units 441 is represented by D3, and between the light emitting diode units 451. The spacing is indicated by D4. The light-emitting diode units are arranged along the length direction of the substrate 410, and the arrangement thereof satisfies the following relationship: D1 > D3 > D2 and D1 > D3 > D4. In this embodiment, since the spacing between the light emitting diode units 451 is smaller than the spacing between the light emitting diode units 441, the entire form number A0101 is 9 pages/20 pages of LED light strips. In the light-emitting module with different pitches, a staggered structure will be formed, that is, for any of the middle of the light-emitting modules, the arrangement pitch of the light-emitting diodes or the light-emitting diodes of the two adjacent light-emitting modules are simultaneously The arrangement pitch of the polar bodies is large, or at the same time, the arrangement pitch of the light-emitting diodes in the two adjacent light-emitting modules is smaller. This arrangement of the light-emitting diode unit also makes the light intensity distribution uniform and improves the heat dissipation effect. [0021] The elongated substrate of the light-emitting diode strip can be split into a plurality of substrate units as needed. As shown in FIG. 6 , the LED light bar 500 of the fourth embodiment of the present invention includes a substrate 510 having a long shape, a first light emitting module 520 and a second light emitting module 5 3 disposed on the substrate 510 . 0. The first lighting module 52 0 is disposed at a central region of the light bar, and the second lighting module 530 is disposed at both ends of the light bar. The pitch of the light-emitting diode units 521 adjacent to each other in the first light-emitting module 520 is greater than the distance between the light-emitting diode units 521 of the second light-emitting module 530. The substrate 510 of the present embodiment is divided into a plurality of substrate units 511, a substrate unit 512, and a substrate unit 513, which are different from the first embodiment. The first light emitting module 520 is disposed on the surface of the first substrate unit 511, and the two second light emitting modules 530 at the two ends of the light bar are respectively disposed on the surface of the substrate unit 512 and the substrate unit 513. By dividing the substrate 510 into a plurality of substrate units 511, 512, and 513, when a certain portion of the light bar is damaged and needs to be replaced, only one of the substrate units can be replaced, thereby saving cost. [0022] In summary, the present invention has indeed met the requirements of the new patent, and has filed a patent application according to law. However, the above is only a preferred embodiment of the present invention, and it is not possible to limit the scope of the patent application in this case. Familiar with this form No. A0101 Page 10 of 20 M394409
[0023] [0024] [0025] [0026] [0027] [0028][0028] [0028] [0028] [0028]
[0029] [0030] [0031] [0032] [0033] 案技藝之人士援依本新型之精神所作之等效修飾或變化 ’如改變發光二極體單元或發光模組的數量;或者改變 發光模組的排佈方式’例如,若以A代表第一發光模組; B代表第二發光模組;c代表第三發光模組;D代表第四發 光模組;E代表第五發光模組,且其發光二極體單元的間 距有以下關係:DA<DB<DC<DD<DE,則發光模組的排列方 式可以係ABCDCBA或係ABCDEDCBA等,皆應涵蓋於以下 申請專利範圍内。 【圖式簡單說明】 圖1係現有的發光二極體燈條示意圖。 圖2係本新型第一實施例的發光二極尊燈條示意圖。 ..:¾ ,·. 圖3係圖2中發光二極體燈條的俯視示意i。 圖4係本新型第二實施例的發光二極體燈條示意圖。 圖5係本新型第三實施例的發光二極體燈條示意圖。 圖6係本新型第四實施例的發光二極體燈條示意圖。 【主要元件符號說明】發光二極體燈條:100、200、300、400、500 基板:110、210、310、410、510 基板單元:511、512、513發光模組:220、230、320、330、340、420、430、 520 ' 530 發光二極體單元:121、221、231、321、331、341、 表單编號A0101 第11頁/共20頁 531 [0034]M394409 421 ' 431 ' 441 ' 451 ' 521 螺孔:240 表單編號A0101 第12頁/共20頁[0033] [0033] The person skilled in the art assists in the equivalent modification or variation made according to the spirit of the present invention, such as changing the number of light-emitting diode units or light-emitting modules; or changing the light-emitting The arrangement of the modules is as follows: for example, A represents the first lighting module; B represents the second lighting module; c represents the third lighting module; D represents the fourth lighting module; and E represents the fifth lighting module. The spacing of the light-emitting diode units has the following relationship: DA <DB<DC<DD<DE, and the arrangement of the light-emitting modules may be ABCDCBA or ABCDEDCBA, etc., and should be covered by the following patent application. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view of a conventional light-emitting diode light bar. 2 is a schematic view of a light-emitting diode lamp strip of the first embodiment of the present invention. ..:3⁄4 ,··. Figure 3 is a top view of the light-emitting diode strip of Figure 2. 4 is a schematic view of a light-emitting diode light bar of a second embodiment of the present invention. FIG. 5 is a schematic view of a light-emitting diode light bar of a third embodiment of the present invention. 6 is a schematic view of a light-emitting diode light bar of a fourth embodiment of the present invention. [Main component symbol description] LED light bar: 100, 200, 300, 400, 500 Substrate: 110, 210, 310, 410, 510 Substrate unit: 511, 512, 513 Light-emitting modules: 220, 230, 320 , 330, 340, 420, 430, 520 ' 530 LED units: 121, 221, 231, 321, 331, 341, Form No. A0101 Page 11 of 20 531 [0034] M394409 421 '431 ' 441 ' 451 ' 521 Screw hole: 240 Form No. A0101 Page 12 of 20