201124571 六、發明說明: 【發明所屬之技術領域】 本發明「發光紗線組織」,尤特指一種發光紗線,且可被絕 緣紗線組織在編織物。 【先前技術】 光電產品如雨後春筍般的被研發,並與世人生活產生 密不可分的地步,如TWM262037、TW341145、TWM344220、 US4, 848, 009、US5, 485, 358、US5,113, 325…等,究觀此些 設計,係將發光二極體配合編織物中,然而其被定位在某 一區塊的功能或某特定的使用方式,尚未能提供世人通 俗、簡單又安全的可大量應用於編織物上。 最近有TW200916620之發明,其是將發光二極體封裝成 σ口以導電素線與非導電素線父織成包繞紗線,雖應用傳統 技藝’將光電產品應用於編織物上,但其卻忽略導電材與 發光二極體封裝之連結(如焊點及LED封裝成品)的脆弱,雖 有膠體或硬質護套(如熱縮套管)’但其強度無法受到外力 的彎折,保證不被破壞分離的情形,在實際的使用上,有 其不恰,實有改進之必要性。 【發明内容】 本發明提供一種發光紗線之組織,尤特指以編織方法,增 加其強度,避免受外力之破壞者。 本發明另提供以上述發光紗線,可編織成物品或加諸於編 織物上者。 201124571 本發明提供-種發光紗線之組織,其包括至少-發光二極 體封裝以及一條以上的導光紗線,而發光二極體封裝至少有二 個以上電極’而各辦光紗線與發仁鋪封裝之神電極電 _接導電,且使導電錄互為絕緣。 於航二極體雜及導請線上包覆有非導線紗線組織 者。 至少於發光二赌雜與導錄雜置,料電素線 • 係形成厚實區者。 該非導電線紗厚實區,係可以較密或較粗之非導電線編 而成者。 本發明提供—紐光魏之組織,刺加了導電素線彎折 之彈性緩衝區者。 本發明提供-種發光紗線峨之編織物,係於導電素線與 發光二極體封裝外覆之料電素線,向外續編織—段距離之= • 植部。 本發明提供-猶絲線組織之編織物,_用前述之 組織相互編織而成者。 【實施方式】 第-圖所示,為本發明所舉可利用之發光紗線的實施 例,本實施例之發光紗線10包括至少一個發光二極體封裝i 及至少兩條或兩條以上之導電素線2,發光二極體封裝i至少 201124571 有兩個或兩個以上的電極,且各條導電素線2分別與發光二極 體封裝1之電極電性連接,且各個導電素線2的電性彼此絕緣。 詳言之,各個導電素線2係至少有一條與發光二極體封 裝1之正極,及一條與負極連接形成迴路。如圖所示,該導電 素線2基本至少設為兩單條2a、2b形式,使分別與發光二極 體封裝1之不同電極電性連結,而該導電素線2也可設成至少 兩相併之2c、2d的使用型態。 上述之導電素線2係指具有柔韌性良好之如紗線(俗稱導 電紗線)、膠線等製成,而將導電蕊材包覆於内。 如第二圖所示’導電素線2係於發光二極體1之電極位 置露出導電蕊材21,而以與發光二極體封裝成品丨之電極位 置’以 SMT( Surface Mounting Technology)表面黏著技術或 點焊方式接合12。 如第三圖所示為本發明於發光紗線10外以非導電素線3 所形成之組織,且至少於發光二極體封裝i與導電素線2連接 之位置處,以非導電素線2編織形成厚實區30,而完成一發光 紗線組織單元40,第四圖為第三圖之厚實區3〇的放大圖示, 此厚實區30係由較密之非導電素線3a形成之,另此厚實區3〇 可為如第此五圖及第六圖之局部放大圖所示,為該厚實區3〇 可為較粗之非導電素線3b所編織而成,藉此厚實區30之設 計’可提供如第七圖所示之效果’當發光紗線1〇被彎折,導 電素線2與發光二極體封裝1之夾角,就會受到厚實區3〇的 201124571 擠曲,而形成-敏摺部3卜此級摺部31正可造成一的阻止導 電素線2繼續過大的彎折。此項技術特徵正可改善 TW200916620發明之弊病’可以防止以此結, 如編織品上時,導電絲會經常的受與折、扭曲,所造成脫 線及零件斷裂的不良現象’即如“_示,於TW麵1662〇 發明中’該發光導線2在彎折時易對對封膠丨丨產生拉扯,錫 點接合12也容易有被脫開及零件斷裂之虞,而喪失發光及防 水效果。 上述之非導電素線係指紗線、绵線或其它絕緣之材質製成 之線條狀者而言。 如第九圖所示,本發明可藉由發光紗線組織元4〇外編織 以非導電素線3b,而將兩個以上發光紗線組織單元4〇續以非 導電素線3b編織為發光紗線間之連結區,就此可編織出預定 之編織品。 如第十圖及第Η —圖之剖示圖所示,為本發明之另一實 施例,於發光紗線組織單元4〇外以非導電素線3,至少從一端 向外延伸編織出條帶狀之外植部41,藉此除以可作為如第九圖 之連結方式外,亦可有利快速簡易的將本發明直接縫製於現有 之編織物上,如衣服、皮包、舞蹈服、安全裝置等外邊。 另’本發明亦可於包覆發光二極體1發光面上之非導電素 線3位置’形成一疏鬆區50的組織’如第十二圖所示’該疏 鬆區50的組織係較為稀鬆,此非導電素線3之距離較寬,而 201124571 形成有較大的間隙,可降低對發光二極體丨之阻光情形。 综上所述,本發明「發光紗線組織」如上所舉之可行實施 例,疋切確為光電科技結合編織品提供最佳的應用模式,然其 所揭露之技術並非用以限制本發明之專利範圍,凡熟習此項技 藝所為的任何改變,在不脫離本發明精神下,皆應屬本發明之 範疇。 【圖式簡單說明】 # 第一圖:係為本發明之發光紗線之基本單元。 第二圖:係為前圖之詳細側面圖示。 第二圖:係為本發明發光紗線組織之單元結構實施例圖。 第四圖:係為前圖之局部放大圖示。 第五圖·係為本發明發光紗線組織之單元結構實施例圖之二。 第六圖:係為前圖之局部放大圖示。 第七圖:係為本發明發光紗線組織單元的動作圖示。 • 第八圖:係為前案發光紗線的動作圖示。 第九圖:係為本發明編織之方式。 第十圖.係為本發明之另一種設有外植部之實施例圖。 第十一圖:係為前圖之剖示圖。 第十二圖:係本發明於發光二極體上之疏鬆區示意圖。 【主要元件符號說明】 [S.1 10……發光紗線11……封膠12……錫點接合 1 •發光二極體封裝 2、2a、2b、2c、2d......導電素線 7 201124571 3、3a……非導電素線 3b… …粗非導電素線 30……厚實區 31•…· ‘·皺摺部 40……發光炒線組織單元 4l·.· …外植部 50......疏鬆 £ 21..... ‘*導電.¾¾材201124571 VI. Description of the Invention: [Technical Field of the Invention] The "light-emitting yarn structure" of the present invention refers to an illuminating yarn which can be organized in a woven fabric by an insulating yarn. [Prior Art] Photoelectric products have been developed and mushroomed, and are inseparable from the lives of the world, such as TWM262037, TW341145, TWM344220, US4, 848, 009, US5, 485, 358, US5, 113, 325, etc. Looking at these designs, the light-emitting diodes are matched with the braid. However, the function of the positioning or the specific use of a certain block has not yet provided the world's popular, simple and safe. On the braid. Recently, the invention of TW200916620 is to package a light-emitting diode into a σ port to entangle a yarn with a conductive wire and a non-conductive wire. Although the conventional technology is applied to the optical product, the optical product is applied to the woven fabric. However, the connection between the conductive material and the LED package (such as solder joints and LED package finished products) is neglected, although there is a colloid or a hard sheath (such as a heat shrinkable sleeve), but its strength cannot be bent by external force, ensuring In the case of not being separated by destruction, there is a difference in actual use, and there is a need for improvement. SUMMARY OF THE INVENTION The present invention provides a structure of a luminescent yarn, and particularly refers to a method of weaving to increase the strength and avoid damage by external force. The present invention further provides a luminescent yarn of the above type which can be woven into an article or applied to a woven fabric. 201124571 The present invention provides a structure of a kind of luminescent yarn comprising at least a light emitting diode package and one or more light guiding yarns, and the light emitting diode package has at least two electrodes and each of the optical yarns The electrode of the package is made electrically conductive and the conductive recordings are insulated from each other. Non-wire yarn organizers are covered on the Yuhang diode and guide wire. At least in the illuminating two gambling and miscellaneous, the material cell line is formed into a thick area. The non-conductive wire thick region is a non-conductive wire that can be made denser or thicker. The invention provides a structure of New Zealand Wei, which is a flexible buffer for bending a conductive wire. The invention provides a woven fabric of the illuminating yarn ,, which is attached to the electric conductor wire of the electric conductor wire and the illuminating diode package, and is woven outwardly - the distance of the segment = the planting part. The present invention provides a woven fabric of a eucalyptus thread structure, which is woven with the aforementioned structure. [Embodiment] The first embodiment shows an embodiment of an illuminating yarn that can be utilized in the present invention. The illuminating yarn 10 of the present embodiment includes at least one light emitting diode package i and at least two or more. The conductive wire 2, the light emitting diode package i has at least 201124571 having two or more electrodes, and each of the conductive wires 2 is electrically connected to the electrodes of the light emitting diode package 1 respectively, and each conductive wire The electrical properties of 2 are insulated from each other. In detail, each of the conductive wires 2 has at least one positive electrode connected to the light-emitting diode package 1 and one connected to the negative electrode to form a loop. As shown in the figure, the conductive wire 2 is basically at least two single strips 2a, 2b, so as to be electrically connected to different electrodes of the LED package 1, and the conductive wire 2 can also be set to at least two phases. And the use type of 2c, 2d. The above-mentioned conductive wire 2 is made of a yarn (commonly known as a conductive yarn), a glue line or the like which is excellent in flexibility, and the conductive core material is coated therein. As shown in the second figure, the conductive wire 2 is exposed to the electrode of the light-emitting diode 1 to expose the conductive core 21, and is adhered to the surface of the finished electrode package of the light-emitting diode by SMT (Surface Mounting Technology). Technical or spot welding joints 12. As shown in the third figure, the structure formed by the non-conductive wire 3 outside the luminescent yarn 10 of the present invention, and at least at the position where the light-emitting diode package i is connected to the conductive wire 2, is a non-conductive wire. 2 is woven to form a thick region 30, and an illuminating yarn organization unit 40 is completed, and the fourth figure is an enlarged view of the thick solid region 3A of the third figure, which is formed by a dense non-conductive wire 3a. In addition, as shown in the enlarged view of the fifth and sixth figures, the thick region 3 can be woven by the thick non-conductive wire 3b, thereby forming a thick region. The design of 30 can provide the effect shown in the seventh figure. When the illuminating yarn 1〇 is bent, the angle between the conductive wire 2 and the LED package 1 will be squeezed by the thickened area 3〇 201124571. And the formation-minding portion 3 of this stage of the folding portion 31 is caused to prevent the conductive wire 2 from continuing to be excessively bent. This technical feature is improving the ills of the invention of TW200916620, which can prevent this. For example, when the woven fabric is used, the conductive wire will often be subjected to folding and twisting, resulting in the phenomenon of off-line and broken parts. In the invention, in the invention of the TW surface 1662, the light-emitting wire 2 is easy to pull on the sealant when it is bent, and the tin-point joint 12 is also prone to be detached and the part is broken, and the light-emitting and waterproof effects are lost. The above-mentioned non-conductive wire refers to a line made of a yarn, a cotton thread or other insulating material. As shown in the ninth figure, the present invention can be woven by the illuminating yarn tissue element 4 The non-electroconductive wire 3b, and the two or more illuminating yarn arranging units 4 are woven by the non-conductive wire 3b as a joining zone between the illuminating yarns, thereby knitting the predetermined woven fabric. In the cross-sectional view of the figure, in another embodiment of the present invention, a strip-shaped explant is knitted by a non-conductive wire 3 outside the illuminating yarn organization unit 4 at least from one end. 41, by dividing it by the way as the connection of the ninth figure The invention can also be directly and conveniently sewed on the existing woven fabric, such as clothes, leather bags, dance clothes, safety devices, etc. The invention can also be coated on the illuminating surface of the light-emitting diode 1 The non-conductor wire 3 position 'forms the structure of a loose zone 50' as shown in the twelfth figure. The structure of the loose zone 50 is relatively loose, and the non-conductive wire 3 has a relatively wide distance, and the 201124571 has a large formation. The gap can reduce the light blocking condition of the light-emitting diodes. In summary, the "light-emitting yarn structure" of the present invention is as described above as a feasible embodiment, and the cutting is indeed the best for the photoelectric technology combined with the weaving product. The application of the present invention is not intended to limit the scope of the invention, and any changes which are apparent to those skilled in the art are intended to be within the scope of the invention. [Simple description of the drawing] #第一图: It is the basic unit of the luminous yarn of the invention. The second picture: is a detailed side view of the previous figure. Fig. 2 is a view showing an embodiment of a unit structure of the luminescent yarn structure of the present invention. Figure 4: A partial enlarged view of the previous figure. Fig. 5 is a second embodiment of the unit structure of the luminescent yarn structure of the present invention. Figure 6 is a partial enlarged view of the previous figure. Figure 7 is an illustration of the action of the illuminating yarn organization unit of the present invention. • Figure 8: An illustration of the action of the illuminating yarn in the previous case. The ninth picture: is the way of weaving the invention. Fig. 10 is a view showing another embodiment of the present invention provided with an explanting portion. Figure 11: A cross-sectional view of the previous figure. Twelfth Diagram: A schematic view of a loose zone of the present invention on a light-emitting diode. [Description of main component symbols] [S.1 10...Lighting yarn 11...Sealing 12... Tin point bonding 1 • Light-emitting diode package 2, 2a, 2b, 2c, 2d... Conductive Plain line 7 201124571 3, 3a... non-conductive wire 3b... thick non-conductive wire 30... thick area 31•...· '·wrinkle 40...lighting line organization unit 4l·.·...explant Department 50... Loose £ 21..... '* Conductive.3⁄43⁄4