M334454 八、新型說明: 【新型所屬之技術領域】 ”本創作係關於-種液晶顯示器之背光模組之冷陰極燈 官之没計,特別是關於一種四邊形冷陰極燈管組。 【先前技術】 心著液晶顯示技術日益精進,液晶顯示面板已普遍應 • 用於數位相機、個人數位助理(pda)、行動電話以及平面薄 型電視等消費性電子產品上。其中背光模組是液晶顯示器的 關鍵令組件之一,言交置在液晶顯示面板之背㊆,用以提供液 晶顯示面板所需之光源。 一般而言,背光模組通常包含有複數根平行排列之冷 陰極螢光燈管(CCFL),並配合各種光學元件(如擴散板、稜 鏡等)的組合,以提供液晶顯示面板高量度且均勻之光源。 /、中々陰極螢光燈管需要電壓轉換器如)供給高壓電 鲁流電壓,以將高頻電壓施加在冷陰極螢光燈管兩端之燈導絲 • ,而使冷陰極燈管内部產生放電,隨著放電所產生之紫外線 - 會激發形成在冷陰極燈管内壁之螢光粉,因而產生可視光。 【新型内容】 本創作所欲解決之技術問題: 然而’由於電壓轉換器無法同時提供多根並聯之冷陰 極螢光燈管所需之驅動電壓,否則電壓轉換器内之安定電容 M334454 (ballast)之容量會不穩定,導致冷陰極螢光燈管亮度不均, 因此基本上每一根冷陰極螢光燈管需要利用獨立的導線分 別電連接至不同的電壓轉換器來驅動,此一限制造成液晶顯 示器之機殼設計與背光模組内部元件配置之困難。 並且,由於習用之設計需要多個電壓轉換器,無法符 合現今市場對液晶顯示器輕薄短小之要求且增加了液晶顯 示器之成本,且電壓轉換器屬於高頻元件,因此容易產生電 磁波干擾而影響液晶顯示器之正常運作。 緣此,本創作之主要目的即是提供一種四邊形冷陰極 燈管組,以簡化冷陰極燈管之配線數目,進而簡化背光模組 之内部配置。 本創作之另一目的是提供一種只需一個電壓轉換器之 四邊形冷陰極燈管組,以符合市場對輕薄短小液晶顯示器之 需求並有效降低成本。 本創作解決問題之技術手段: 本創作為解決習知技術之問題所採用之技術手段係由 至少二支冷陰極燈管組成一四邊形冷陰極燈管組,各支冷陰 極燈管相鄰之電極端之間係以一個第一複合導電套接構件 予以連接,四邊形冷陰極燈管組係具有一第一電極端和一第 二電極端,第一電極端和第二電極端係連接於一電壓轉換 器。 於本創作之較佳實施例中,第一電極端和第二電極端 係分別經由一第二複合導電套接構件和一導線連接於該電 M334454 壓轉換器。 本創作對照先前技術之功效: 經由本創作所採用之技術手段,由於四邊形冷陰極燈 . 管組係由至少二支冷陰極燈管串聯連接而成,故只需藉由兩 條導線連接至一電壓轉換器,可簡化冷陰極燈管之配線數 目,進而簡化背光模組之内部配置。 # 並且四邊形冷陰極燈管組只需一個電壓轉換器來驅 動’可符合市場上對液晶顯示器輕薄短小之要求,並可有效 降低成本。 本創作所採用的具體實施例,將藉由以下之實施例及 附呈圖式作進一步之說明。 【貫施方式】 i閱第1圖所示,其係顯示本創作四邊形冷陰極燈管 組之第一實施例。本創作四邊形冷陰極燈管組100係由四支 :陰極k g 11、12、13、14組成—四邊形配置之冷陰極燈 管組°冷陰極燈管U、12之間、冷陰極燈管12、13之間以 =陰極燈管13、14之_分取—個第—複合導電套接 人連接’且冷陰極燈管11之—端係經由—第二複 構件瓜和一導線3a連接於-電壓轉換器4, :=1 遠4r端係經由一™^ ¥線3b連接於電壓轉換器4。 參閱第2圖所示,第一複合導電套接構件21係具有一 M334454 弟:套接面2U和一第二套接面212,第一套接面2ιι和第 -套接面212係分別開設有—容置孔213,容置孔213係包 括一燈導絲容置區段213a和一燈管容置區段幻儿。、 ,參閱第3圖所示’第—複合導電套接構件η係包括一 導電層214和一包覆於導電層214之絕緣層2!5,容置孔213 係^絕緣層215且開設至導電層214中,亦即容置孔213 官谷置區段213b係貫穿絕緣層215且開設至導電層 214中’而谷置孔213之燈導辞交署 電層214中。 w合置“仙係開設於導 容置孔213係用以容置冷陰極燈管之―電極端,以使 α支冷陰極燈管相鄰之電極端接觸於導電層214並婉由導 電層2U而彼此電連接。例如第一複合導電套接構件η之 =置孔213係可分別容置冷陰極燈管η之一電極端iu 和々陰極燈管12之一電極端121。亦即冷陰極 極端⑴係、恰容置於第-複合導電套接構件21之 之燈導絲容置區段仙中而接觸於導電層214,冷 陰極燈管12之電極端121係怜 件2丨之另r輪接搆 導電層2H,使得冷 总々币, 之笔極知111和冷陰極燈 12之電極端121經由導電層214而彼此電連接。 導電套nrr管11之燈管本體之一端係容置於第一複合 :電=構件21之一個容置孔213之 :卷冷陰極燈管12之燈管本體之-端係容置於第一複合導 “接構件21之另—容置孔213之燈管容置區段㈣中, M334454 ==2複合導電套接構件21可支#冷陰極燈^和冷陰 ;第複α ‘電套接構件21連接冷陰極燈管12、13 2及第-複合導電套接構件21連接冷陰極燈管η、 管U、^與上述第—複合導電套接構件21連接冷陰極燈 ^ — 之方式相同。故,各支冷陰極燈管相鄰之電極端 —複合導電套接構件21予以連接,使得冷 陰極“^、…卩串聯連接成為四邊形冷陰極 組 1 〇〇 〇 #參閱第4圖所示,四邊形冷陰極燈管組1〇〇係具有一 第電極端la(第-電極端la即為冷陰極燈管u之另一電 極知)’弟—電極端la#經由第二複合導電套接構件Mg和 導線3a連接於第}圖中之電壓轉換器4。第二複合導電套 接構件22a係具有―燈管套接面221和—導線套接面奶, 燈管套接面22〗係開設有—容置孔213(與第—複合導電套 接構件21之谷置孔213相同),導線套接面μ2係開設有一 導線插置孔216,容置孔213係包括—燈導絲容置區段心 和-燈管容置區段213b,導線插置孔216係包括—穿入區 段216a和一插置區段216b。 7參閱第5圖和帛6圖所示,第二複合導電套接構件22a 係包括-導電層214和-包覆於導電層214之絕緣層215(與 第-複合導電套接構件21才目同),容置孔213係貫穿絕緣層 215且開設至導電㉟214中,亦即容置孔213之燈管容置區 段213b係貫穿絕緣層215且開設至導電層214中,而容置 M334454 孔213之燈導絲容置區段213a係開設於導電層2丨4中。同 樣地,導線插置孔216係貫穿絕緣層215且開設至導電層 214中,亦即導線插置孔216之穿入區段216a係貫穿絕緣 層215且開設至導電層214中,而導線插置孔216之插置區 段216b係開設於導電層214中。 第二複合導電套接構件22a之容置孔213係用以容置 四邊形冷陰極燈管組1〇〇之第一電極端la,亦即第一電極 端la係恰容置於第二複合導電套接構件22a之容置孔213 之燈導絲容置區段213a中而接觸於導電層214,而冷陰極 燈管11之燈管本體之一端係容置於第二複合導電套接構件 22a之容置孔213之燈管容置區段213b中。導線插置孔216 係用以容置導線3a,導線3a係具有一頭端31a,導線允之 頭端31a係可穿過導線插置孔216之穿入區段2心而插置 ,導線插置孔216之插置區段216b中,使得導線%接觸於 第=複合導電套接構件22a之導電層214。故四邊形冷陰極 燈管組100之第一電極端la和導線3a係分別接觸於第二複 合導電套接構件22a之導電層214並經由第二複合導電套接 構件22a之導電層214而彼此電連接。 閱+第7圖至第9圖所示’四邊形冷陰極燈管組剛 係具有-第二電極端lb(第二電極端lb即為冷陰極燈管Μ :=Τ:)’第二電極端1b係經由第二複合導電套接構 件22M°導線⑪連接於第1圖中之電愿轉換器、4。第二複 22b之結構設計與前述之第二複合導電套 接構件22a大致相同,故相同之構件乃標示以相同之元件炉 M334454 號’以資對應。其差異在於第二複合導電套接構件咖之導 線套接面222係與燈管套接面221相對,導線插置孔216 係開設於導線套接面222。 且第二複合導電套接構件22b容置孔213係用以容置 :邊形冷陰極燈管_〇之第二電極端lb,亦即第二電極 ^ lb係恰容置於第二複合導電套接構件22b之容置孔犯 之,導絲容置區段213a中而接觸於導電層214,而冷陰極 燈管14之燈管本體之—端係容置於第二複合導電套接構件 22b之容置孔213之燈管容置區段㈣中。導線插置孔加 係用以容置導線3b’導線3b係具有-頭端31b,導線3b 之頭端3lb係可穿過導線插置孔216之穿入區段21如而插 置ί導線插置孔216之插置區段雇中,使得導線3b接觸 於第一稷合導電套接構件22b之導電層2丨4。故四邊形冷陰 極燈管組100之第二電極端lb和導線儿係分別接觸於= 複合導電套接構件22b之導電層214並經由第二複合導電套 接構件22b之導電層214而彼此電連接。 由於四邊形冷陰極燈管組1〇〇係由冷陰極燈管^、 12、13、14串聯連接而成,故只f藉由兩條導線%、% 接至電壓轉換器4,如此可簡化燈管之配線數目,亦可问化 =㈣器4之電路設計(僅需單組輸出電壓),且冷陰極燈 吕 2、13、14之間不會有發光效能不均之問題。 舉^熟悉此技藝者皆能輕易得知,上述實施例中之冷 陰極垃嘗之電極端係為燈導絲(例如冷陰極燈管Η之電極 端m,或例如四邊形冷陰極燈管組1〇〇之第—電極端14°, M334454 恐々、陰極燈官之m拽碼丨紫以燈導絲之型式設計外,,、口 為外部電極之型式:’形成於冷陰極燈管本體之兩端= 置孔213之大小没汁則須配合冷陰極燈管之外邻+極 小〇 參閱第10圖所示’其係顯示本創作四邊形冷陰極燈管 組之第二實施例。本創作四邊形冷陰極燈管組2⑻之妹且g 計大致上與前述之第一實施例相同,故相同 =^ 相同之元件標號,以,對應。其差異在於四邊== 組200係由一個第一複合導電套接構件幻連接二支[人 陰極燈管15、16而成。 ,參閱m圖所示’其係顯示本創作四邊形冷陰極燈管 組之第三實施例。本創作四邊形冷陰極燈管组_ = 計大致上與前述之第…第二實施例相同,故相同之:件2 標不以相同之元件標號,以f對應。其差異在於四邊形 極燈管組係由二個第-複合導電套接構件21連接^ 冷陰極燈管13、u和—支L形冷陰極燈管15而成 形冷陰極燈官15和冷陰極燈f 13之間係、以 電套接構…以連接,冷陰極燈管13和冷二 之間係Ί —個第—複合導電套接構件21予以連接。 組之顯示本創作四邊形冷陰極燈管 計大致上盘前^ 陰極燈管組彻之結構設 /、 “之弟一實施例相同,故相同構件 相同之元件標說稱仵乃‘不以 組柳係由—個貝對應〜產異在於四邊形冷陰極燈管 弟一複合導電套接構件2〗連接一支M334454 VIII. New description: [New technical field] 》This creation is about the cold cathode lamp of the backlight module of liquid crystal display, especially for a quadrilateral cold cathode lamp tube group. [Prior Art] With the increasing precision of liquid crystal display technology, liquid crystal display panels have been widely used in consumer electronics such as digital cameras, personal digital assistants (PDAs), mobile phones, and flat-panel TVs. Among them, backlight modules are the key to LCDs. One of the components is placed on the back of the liquid crystal display panel to provide the light source required for the liquid crystal display panel. Generally, the backlight module usually includes a plurality of cold cathode fluorescent tubes (CCFLs) arranged in parallel. And with a combination of various optical components (such as diffuser, germanium, etc.) to provide a high-measure and uniform light source for the liquid crystal display panel. /, the middle cathode cathode fluorescent tube requires a voltage converter such as) to supply high-voltage electricity flow Voltage to apply a high-frequency voltage to the lamp guide wire at both ends of the cold cathode fluorescent lamp, so that the inside of the cold cathode lamp tube is discharged, along with The ultraviolet rays generated by the electricity - will stimulate the phosphor powder formed on the inner wall of the cold cathode lamp tube, thus producing visible light. [New content] The technical problem to be solved by this creation: However, since the voltage converter cannot provide multiple parallel connections at the same time The driving voltage required for the cold cathode fluorescent lamp, otherwise the capacity of the stability capacitor M334454 (ballast) in the voltage converter will be unstable, resulting in uneven brightness of the cold cathode fluorescent lamp, so basically each cold cathode Fluorescent tubes need to be electrically connected to different voltage converters by separate wires. This limitation makes the design of the liquid crystal display case and the internal components of the backlight module difficult. Moreover, due to the custom design, multiple The voltage converter cannot meet the requirements of the light and short liquid crystal display in the current market and increases the cost of the liquid crystal display, and the voltage converter is a high frequency component, so it is easy to generate electromagnetic wave interference and affect the normal operation of the liquid crystal display. The main purpose is to provide a quadrilateral cold cathode tube set to simplify cold and yin The number of wires of the lamp tube, thereby simplifying the internal configuration of the backlight module. Another object of the present invention is to provide a quadrilateral cold cathode lamp tube group that requires only one voltage converter to meet the market demand for light and thin short liquid crystal displays and is effective. Reduce the cost. The technical means to solve the problem in this creation: The technical means used to solve the problem of the prior art is to form a quadrilateral cold cathode lamp tube group with at least two cold cathode lamps, each of which has a cold cathode lamp tube phase. The adjacent electrode ends are connected by a first composite conductive sleeve member, and the quadrilateral cold cathode lamp tube assembly has a first electrode end and a second electrode end, and the first electrode end and the second electrode end are connected In a preferred embodiment of the present invention, the first electrode end and the second electrode end are respectively connected to the electric M334454 pressure converter via a second composite conductive socket member and a wire. The effect of this creation against the prior art: According to the technical means adopted by the creation, due to the quadrilateral cold cathode lamp. The tube set is formed by connecting at least two cold cathode lamps in series, so it is only necessary to connect to one by two wires. The voltage converter simplifies the wiring of the cold cathode lamp, thereby simplifying the internal configuration of the backlight module. # and the quadrilateral cold cathode tube group only need a voltage converter to drive 'can meet the requirements of the market for the thin and light LCD display, and can effectively reduce the cost. The specific embodiments used in the present application will be further illustrated by the following examples and accompanying drawings. [Common Application Mode] Referring to Fig. 1, it shows a first embodiment of the present quadrilateral cold cathode lamp tube set. The creation of the quadrilateral cold cathode lamp tube group 100 is composed of four tubes: cathodes kg 11, 12, 13, and 14 - a cold cathode lamp tube group in a quadrilateral configuration, a cold cathode lamp tube U and 12, and a cold cathode lamp tube 12. Between 13 and the cathode lamps 13 and 14 take a first-composite conductive socket connection and the end of the cold cathode lamp 11 is connected to the second component melon and a wire 3a. The voltage converter 4, :=1 far 4r is connected to the voltage converter 4 via a TM3 line 3b. Referring to FIG. 2, the first composite conductive sleeve member 21 has a M334454 brother: a socket surface 2U and a second socket surface 212, and the first socket surface 2 ι and the first socket surface 212 are respectively opened. There is a accommodating hole 213, and the accommodating hole 213 includes a lamp guide accommodating section 213a and a lamp accommodating section. Referring to FIG. 3, the first composite conductive sleeve member η includes a conductive layer 214 and an insulating layer 2! 5 covering the conductive layer 214, and the receiving hole 213 is connected to the insulating layer 215. In the conductive layer 214, that is, the receiving hole 213, the valley portion 213b penetrates through the insulating layer 215 and opens into the conductive layer 214, and the light of the valley hole 213 is in the electrical layer 214. w 置 "" is installed in the guide hole 213 is used to accommodate the electrode end of the cold cathode lamp, so that the adjacent electrode end of the α-cold cathode lamp is in contact with the conductive layer 214 and is made of a conductive layer 2U is electrically connected to each other. For example, the first composite conductive sleeve member η = the hole 213 can respectively receive one of the electrode ends iu of the cold cathode lamp n and one of the electrode ends 121 of the cathode lamp tube 12. The cathode terminal (1) is placed in the lamp guide wire receiving section of the first-composite conductive sleeve member 21 to be in contact with the conductive layer 214, and the electrode end 121 of the cold cathode lamp tube 12 is a pity member. The other r-wheels are connected to the conductive layer 2H so that the cold total coin, the pen electrode 111 and the electrode end 121 of the cold cathode lamp 12 are electrically connected to each other via the conductive layer 214. One end of the lamp body of the conductive sleeve nrr tube 11 The first composite: the electrical component = one of the receiving holes 213 of the member 21: the end of the lamp body of the cold cathode lamp 12 is accommodated in the first composite guiding member 21 In the lamp tube accommodating section (4) of 213, M334454 ==2 composite conductive socket member 21 can support #cold cathode lamp^ and cold cathode; the first complex α' electric sleeve structure 12 and 13 are connected to cold cathode fluorescent lamp 21 and the second 2 - composite conductive socket member 21 is connected cold cathode fluorescent lamp η, tube U, ^ and the first - composite conductive socket member 21 is connected cold cathode ^ - the same way. Therefore, the adjacent electrode ends of the cold cathode fluorescent tubes-composite conductive sleeve members 21 are connected, so that the cold cathodes "^, ..." are connected in series to form a quadrilateral cold cathode group 1 〇〇〇 #refer to Fig. 4, The quadrilateral cold cathode lamp tube set 1 has a first electrode end la (the first electrode end la is the other electrode of the cold cathode lamp u). The younger electrode end la# is passed through the second composite conductive socket member. The Mg and the wire 3a are connected to the voltage converter 4 in the figure. The second composite conductive sleeve member 22a has a "light tube sleeve surface 221 and a wire sleeve surface milk, and the tube sleeve surface 22 is opened. The receiving hole 213 is the same as the receiving hole 213 of the first composite conductive sleeve member 21, and the wire receiving surface μ2 defines a wire insertion hole 216, and the receiving hole 213 includes a lamp guide wire. The segment core and the lamp housing portion 213b, the wire insertion hole 216 includes a penetration portion 216a and an insertion portion 216b. 7 Referring to FIGS. 5 and 6 , the second composite conductive The socket member 22a includes a conductive layer 214 and an insulating layer 215 covering the conductive layer 214 (and the first-composite conductive socket member 21). The accommodating hole 213 penetrates through the insulating layer 215 and is opened into the conductive layer 35214, that is, the lamp tube accommodating portion 213b of the accommodating hole 213 penetrates through the insulating layer 215 and opens into the conductive layer 214. The lamp guide wire accommodating portion 213a of the M334454 hole 213 is formed in the conductive layer 2丨4. Similarly, the wire insertion hole 216 penetrates through the insulating layer 215 and opens into the conductive layer 214, that is, the wire insertion hole. The insertion portion 216a of the 216 penetrates through the insulating layer 215 and opens into the conductive layer 214, and the insertion portion 216b of the wire insertion hole 216 is opened in the conductive layer 214. The capacity of the second composite conductive sleeve member 22a The hole 213 is configured to receive the first electrode end 1a of the quadrilateral cold cathode lamp tube assembly, that is, the first electrode end la is disposed in the receiving hole 213 of the second composite conductive sleeve member 22a. The lamp guide wire accommodating portion 213a is in contact with the conductive layer 214, and one end of the lamp tube body of the cold cathode lamp tube 11 is received in the lamp tube of the accommodating hole 213 of the second composite conductive sleeve member 22a. In the section 213b, the wire insertion hole 216 is for accommodating the wire 3a, and the wire 3a has a head end 31a. The head end 31a can be inserted through the insertion portion 2 of the wire insertion hole 216, and the wire insertion hole 216 is inserted into the insertion portion 216b so that the wire is in contact with the first composite conductive socket member 22a. The conductive layer 214. Therefore, the first electrode end 1a and the wire 3a of the quadrilateral cold cathode lamp tube set 100 are respectively in contact with the conductive layer 214 of the second composite conductive sleeve member 22a and via the conductive layer of the second composite conductive sleeve member 22a. 214 and electrically connected to each other. Read + Fig. 7 to Fig. 9 'The quadrilateral cold cathode lamp tube set has a second electrode end lb (the second electrode end lb is a cold cathode lamp Μ :=Τ: The second electrode end 1b is connected to the electric power converter 4 in FIG. 1 via the second composite conductive sleeve member 22M. The structural design of the second composite 22b is substantially the same as that of the second composite conductive sleeve member 22a described above, so that the same components are designated by the same component furnace No. M334454. The difference is that the wire sleeve surface 222 of the second composite conductive sleeve member is opposite to the tube sleeve surface 221, and the wire insertion hole 216 is formed on the wire sleeve surface 222. The second composite conductive sleeve member 22b receiving hole 213 is for receiving: the second electrode end lb of the edge-shaped cold cathode lamp tube _, that is, the second electrode lb is disposed in the second composite conductive The receiving hole of the socket member 22b is affixed, the guide wire accommodating portion 213a is in contact with the conductive layer 214, and the end of the lamp tube body of the cold cathode lamp tube 14 is accommodated in the second composite conductive sleeve member. The bulb of the hole 213 of the 22b is accommodated in the section (4). The wire insertion hole is for accommodating the wire 3b'. The wire 3b has a head end 31b, and the head end 3lb of the wire 3b can pass through the threading section 21 of the wire insertion hole 216, and the wire is inserted. The insertion section of the hole 216 is employed such that the wire 3b contacts the conductive layer 2丨4 of the first twisted conductive sleeve member 22b. Therefore, the second electrode end 1b and the wire of the quadrilateral cold cathode lamp tube set 100 are respectively in contact with the conductive layer 214 of the composite conductive sleeve member 22b and electrically connected to each other via the conductive layer 214 of the second composite conductive sleeve member 22b. . Since the quadrilateral cold cathode lamp tube group 1 is formed by connecting the cold cathode lamps ^, 12, 13, and 14 in series, only f is connected to the voltage converter 4 by two wires %, %, which simplifies the lamp. The number of wiring of the tube can also be calculated as the circuit design of the (4) device 4 (only a single set of output voltage is required), and there is no problem of uneven luminous performance between the cold cathode lamps Lu, 2, 13, and 14. As is well known to those skilled in the art, the electrode end of the cold cathode strip in the above embodiment is a lamp guide wire (for example, the electrode end m of the cold cathode lamp tube, or for example, a quadrilateral cold cathode tube group 1 The first part of the electrode - the electrode end 14 °, M334454 fear, the cathode lamp official's m code 丨 purple with the light guide wire type design, the mouth is the external electrode type: 'formed in the cold cathode lamp body two End = the size of the hole 213 is not required to match the cold cathode tube adjacent to the + very small 〇 see Figure 10, which shows the second embodiment of the quadrilateral cold cathode lamp tube set. The creation of the quadrilateral cold The sister of the cathode lamp tube group 2 (8) is substantially the same as the first embodiment described above, so the same component number is the same as that of the same reference numeral. The difference is that the four sides == the group 200 is composed of a first composite conductive sleeve. The connecting member is phantomly connected to two [human cathode lamp tubes 15, 16 . See the m diagram to show the third embodiment of the creation of the quadrilateral cold cathode lamp tube set. The creation of the quadrilateral cold cathode lamp tube set _ = is roughly the same as the second embodiment described above, so The same thing: the parts 2 are not labeled with the same component, corresponding to f. The difference is that the quadrilateral pole tube group is connected by two first-composite conductive sleeve members 21, cold cathode lamps 13, u and - branch L The cold cathode lamp tube 15 is formed to form a cold cathode lamp lamp 15 and a cold cathode lamp f 13 , and is connected by an electric socket to connect, and the cold cathode lamp tube 13 and the cold two are connected to each other. The socket member 21 is connected. The display of the group shows that the quadrilateral cold cathode lamp tube meter is substantially on the front of the disk. The cathode lamp tube group has the same structure and is the same as the first embodiment.仵乃' is not a group of willows - a shell corresponding to the difference between the production of a quadrilateral cold cathode lamp, a composite conductive sleeve member 2
12 M334454 燈管14和一支门字形冷陰極燈管i7而成。 由以上之實施例可知,本創作 燈管組確具產聿上之利肝# 2 邊形冷陰極 隸w 彳胃值,故本創作業已符合於專利之 科。惟以上之敘賴為賴作之較佳#_ :::r者當可依據上述之說明而作其它種種之改良二 =受仍屬於本創作之創作精神及以下所界定之專利範= 【圖式簡單說明】 第1圖係本創作四邊形冷陰極燈管組之第-實施例連接於 一電壓轉換器之上視圖; 、 =;:!_中之第-複合導電套接構件之立體示意圖; :=:3—3斷面之剖視圖及其一 农極垃吕之示意圖; 弟4圖,本創作中之第二複合導電套接構件用於套接—導 二和士創作四邊形冷陰極燈管組之第一電極端之立 體不意圖; :5圖係第4圖中5_5斷面之剖視圖; 第6圖係第5圖中夕笛一、卜 4} 一稷a泠電套接構件套接一導線和本 1作四邊形冷陰極燈管組、^ ^ 第7圖係本創作中之 之剖視圖; 一言 为弟一稷& ^電套接構件用於套接 ^和本創作四邊形冷陰極燈管組之第二電極端 之立體示意圖; 第8圖係第7圖中8〜8斷面之剖視圖; 13 M334454 弟9圖係弟8圖中夕穿 …人、登Λ 創作M料套接構件套接—導線和本 邊形冷陰極燈管組之第二電極端之1視圖. 弟10圖邊形冷陰_組之第:實施例連接於 一電Μ轉換器之上視圖; 第Η圖一係本創作四邊形冷陰極燈管組之第三實施例連接於 一電壓轉換器之上視圖; 第12圖係本創作四邊形冷陰極燈管組之第四實施例連接於 一電壓轉換器之上視圖。 【主要元件符 號說明 100 、 200 、 300 、 400 四邊形冷陰極燈管組 la 第一電極端 lb 第二電極端 11 、 12 、 13 、 14 冷陰極燈管 HI - 121 電極端 15、16 L形冷陰極燈管 17 门字形冷陰極燈管 21 第一複合導電套接構 211 第一套接面 212 第二套接面 213 容置孔 213a 燈導絲容置區段 213b 燈管容置區段 14 M334454 214 導電層 215 絕緣層 216 導線插置孔 216a 穿入區段 216b 插置區段 22a、22b 第二複合導電套接構件 221 燈管套接面 222 導線套接面 3a、3b 導線 31a、31b 頭端 4 電壓轉換器 1512 M334454 tube 14 and a gate-shaped cold cathode tube i7. It can be seen from the above embodiments that the lamp unit of the present invention has the stomach value of the liver-shaped cold cathode of the liver. Therefore, the creation operation has been in compliance with the patent. However, the above-mentioned syllabus is better for Lai Zuozhi. #_ :::r can be improved according to the above description. 2. Subject to the creative spirit of this creation and the patent scope defined below. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing the first embodiment of the quadrilateral cold cathode lamp tube assembly of the present invention connected to a voltage converter; and the first-composite conductive socket member in the =;:! :=: Sectional view of section 3-3 and its schematic diagram of a farmer's pole; brother 4, the second composite conductive socket member in this creation is used for socket-guided two-six creation quadrilateral cold cathode lamp The first electrode end of the group is not intended to be a three-dimensional view; the figure 5 is a cross-sectional view of the 5_5 section in Fig. 4; the sixth figure is the eve of the fifth picture, a b] a 稷 a泠 electric socket member socket A wire and the present is a quadrilateral cold cathode lamp tube set, ^^ Figure 7 is a cross-sectional view of the present invention; a word for the brothers & ^ electric socket member for the socket ^ and the creation of the quadrilateral cold cathode 3D schematic view of the second electrode end of the lamp tube group; Fig. 8 is a sectional view of the 8th to 8th section in Fig. 7; 13 M334454 In the middle of the 8th, the figure is worn by the person, the board, the creation of the M-sleeve member, the socket, and the second electrode end of the wire-shaped cold cathode lamp tube group. The view of the second electrode end of the wire-shaped cold cathode lamp tube group. The embodiment is connected to an upper view of an electric power converter; the first embodiment is a view of the third embodiment of the quadrilateral cold cathode lamp tube set connected to a voltage converter; the 12th figure is a quadrilateral cold of the creation A fourth embodiment of the cathode lamp tube set is connected to a top view of a voltage converter. [Main component symbol description 100, 200, 300, 400 quadrilateral cold cathode lamp tube group la first electrode terminal lb second electrode terminal 11 , 12 , 13 , 14 cold cathode lamp tube HI - 121 electrode terminal 15, 16 L-shaped cold Cathode lamp tube 17-shaped cold cathode lamp tube 21 first composite conductive sleeve joint 211 first set of joints 212 second sleeve surface 213 accommodating hole 213a lamp guide wire accommodating section 213b lamp tube accommodating section 14 M334454 214 Conductive layer 215 Insulation layer 216 Wire insertion hole 216a Penetration section 216b Interposing section 22a, 22b Second composite conductive socket member 221 Lamp sleeve surface 222 Wire socket surface 3a, 3b Wire 31a, 31b Headend 4 voltage converter 15