201017030 九、發明說明: 【發明所屬之技術領域】 本發明係為一種可置換驅動器之燈管結構,特別為一種應 用於照明之可置換驅動器之燈管結構。 【先前技術】 • 由於生活的進步使得人們對生活品質逐漸重視,而其中室 * 内照明即為影響生活品質中一項重要之因素,特別是發光二極 ❹體所製作之發光二極體燈管,其具備有發光二極體使用壽命長 及省電之優點,因此與現在普遍使用之日光燈管相比較之下, 發光二極體燈管具有取代傳統日光燈管之潛力。 如中華民國專利第M331078號「一種改良式發光二極體 燈管」中所揭露,其包括:複數個透光部;一散熱器;複數個 發光二極體模組;以及二固定套管。其中透光部與散熱器形成 一管體,而發光二極體模組則設置於散熱器之基座上,並位於 ©管體中且透過透光部出光,又固定套管則固定於管體之兩端。 藉由散熱器以幫助發光二極體模組之散熱,用以延長發光二極 體模組之使用壽命,並且將發光二極體模組及驅動電路分別設 置於管體及管體兩端之固定套管中。 前案雖將發光二極體模組及驅動電路分開設置,但是套管 卻仍固定於管體之兩端,使得固定套管與管體為不可分離,因 此當管體中之發光二極體模組或是固定套管中之驅動電路其 中之一發生不可修復之損壞時,所採取之作法即為淘汰整體發 光二極體燈管,如此使得仍可運作之元件遭到丟棄,進而導致 201017030 原料之浪費及成本增加。 【發明内容】 本發明係為一種可置換驅動器之燈管結構,藉由第二燈管 部以可分離之方式與第一燈管部結合,而使得當燈管結構發生 損壞時,可以只針對損壞之第一燈管部或第二燈管部進行置 換,而不需淘汰整體燈管結構,故能達到節省原料及成本之功 效。 ⑩ 本發明係為一種可置換驅動器之燈管結構,由於可單獨置 換第一燈管部或第二燈管部,因此於製造時可針對損壞頻率較 高之第一燈管部或第二燈管部進行較大量之生產,用以達到降 低售價之功效。 為達上述功效,本發明提供一種可置換驅動器之燈管結 構,其包括:一第一燈管部,其具有:一透光殼體;一發光單 元,係設置於透光殼體中;以及至少一第一電性連接部,係設 A 置於透光殼體之一側;以及至少一第二燈管部,其具有:一殼 攀 體;以及一驅動電路,其係設置於殼體中,並於殼體之兩端分 別形成有一第二電性連接部及一第三電性連接部,且第二電性 連接部係以可分離之方式與第一電性連接部電性且機構結 合,並使第一燈管部及第二燈管部結合為一體。 藉由本發明的實施,至少可達到下列進步功效: 一、當燈管結構出現損壞時,可單獨置換損壞之第一燈管部或 第二燈管部,用以取代拋棄整體燈管結構之作法,因而可 達到節省原料及成本之功效。 7 201017030 二、由於第一燈管部及第二燈管部之損壞頻率不同,所以可針 對較常出現損壞情況之元件進行大量生產,以達到降低售 價之功效。 為了使任何熟習相關技藝者了解本發明之技術内容並據 以實施,且根據本說明書所揭露之内容、申請專利範圍及圖 式,任何熟習相關技藝者可輕易地理解本發明相關之目的及優 點,因此將在實施方式中詳細敘述本發明之詳細特徵以及優 【實施方式】 第1圖係為本發明之一種可置換驅動器之燈管結構100立 體分解實施例圖一。第2圖係為本發明之一種可置換驅動器之 燈管結構100立體分解實施例圖二。第3圖係為本發明之一種 可置換驅動器之燈管結構100立體分解實施例圖三。第4圖係 為本發明之一種可置換驅動器之燈管結構100立體分解實施例 圖四。第5圖係為本發明之一種可置換驅動器之燈管結構100 立體分解實施例圖五。第6圖係為本發明之一種可置換驅動器 之燈管結構100立體分解實施例圖六。第7圖係為第3圖之立 體結合實施例圖。 如第1圖所示,本實施例係為一種可置換驅動器之燈管結 構100,其包括:一第一燈管部10;以及至少一第二燈管部20。 第一燈管部10,其具有:一透光殼體11 ; 一發光單元12 ; 以及至少一第一電性連接部13。 透光殼體11,其為一長型中空管狀體,且透光殼體11之 201017030 材質係可以為一透光之玻璃材質或一透光之塑膠材質,又透光 殼體11之尺寸可以為T5或是T8之尺寸。 發光單元12,其係設置於透光殼體11中,而發光單元12 可以由至少一發光二極體121所組成,且發光單元12可經由 透光殼體11而出光。 如第3圖所示,第一燈管部10之發光單元12,其可以由 複數個發光二極體121組成,且發光二極體121之排列方式可 分別如第4圖至第6圖所示,發光二極體121可以雙面之方式 ❹(如第4圖所示)、三面之方式(如第5圖所示)或多面之方 式(如第6圖所示)排列之,使得可置換驅動器之燈管結構100 達到增加出光方向之功效。 第一電性連接部13,其係設置於透光殼體11之一側,並 可藉由導線14與發光單元12而電性相連,用以傳導電源進入 發光單元12,進而驅動發光單元12出光。如第1圖所示,而 當可置換驅動器之燈管結構1〇〇具有一第二燈管部20時,可 ©用於具單邊插座之燈具,例如:檯燈。 第二燈管部20,其具有:一殼體21 ;以及一驅動電路22。 殼體21,其係用以包覆驅動電路22,因此可用以保護内 部之驅動電路22不受水氣影響。 驅動電路22,其係設置於殼體21中,而且驅動電路22 形成有一第二電性連接部23及一第三電性連接部24,並分別 位於殼體21之兩端。又驅動電路22可以為一交流/直流轉換 器,用以將市電之交流電源轉換成直流電源,進而驅動發光單 元12。又驅動電路22亦可以由一交流/直流轉換器及一控制器 9 201017030 所組成,藉由控制器可調控發光單元12之全亮、全閃、漸暗、 漸明…等效果。 . 第二燈管部20之第二電性連接部23係以可分離之方式與 第一燈管部10之第一電性連接部13電性且機構結合,也就是 說第二電性連接部23與第一電性連接部13彼此可相互分離, 又可以結合為一體,且結合時係彼此電性相連,藉以達到輕一 組裝之功效。 如第2圖所示,當可置換驅動器之燈管結構100僅具有一 ❹第二燈管部20時,第一燈管部10之一側係可以進一步具有一 支撐件30,又支撐件30係可以為一 G4之結構,使得可置換 驅動器之燈管結構100仍可適用於具雙邊插座之家用之燈管, 且支撐件30相對設置於第一電性連接部13,也就是說支撐件 30與第一電性連接部13分別設置於第一燈管部10之兩端。 如第3圖至第6圖所示,可置換驅動器之燈管結構100係 具有二第二燈管部20,且可置換驅動器之燈管結構100中第一 ^ 燈管部10與第二燈管部20之結合方式可以如第1圖至第3圖 所示,當第一電性連接部13為一母接頭時,第二電性連接部 23則為一公接頭,因此以可分離之方式電性且機構結合。 或是如第4圖所示,第一電性連接部13可以為一公接頭, 且第二電性連接部23可以為一母接頭。亦可以如第5圖所示, 第一電性連接部13可以為一母接頭,而第二電性連接部23則 可以為外側包有套筒25之一公接頭,進而利用套筒25加強第 一電性連接部13與第二電性連接部23之結合強度。如第6圖 所示,第一電性連接部13亦可以為一螺牙,且搭配之第二電 201017030 性連接部23則可以為一螺母。 如第7圖所示,藉由第二電性連接部23與第一電性連接 部13以可分離之方式之結合,使得第一燈管部10及第二燈管 部20可成為一體之燈管結構100。而第二燈管部20之第三電 性連接部24係可以為一 G4之結構,因此當使用可置換驅動器 之燈管結構100時,第二燈管部20之第三電性連接部24可直 接插入於家用之燈管插座,並使得市電之交流電源可透過第三 電性連接部24傳導至第二燈管部20之驅動電路22中,再藉 © 由驅動電路22將交流電源轉換成直流電源。 接著可透過第二電性連接部23傳導直流電源至第一燈管 部10之第一電性連接部13,因此第一燈管部10中與第一電性 連接部13電性相連之發光單元12即可藉由直流電源而驅動出 光,進而使可置換驅動器之燈管結構1〇〇達到照明之功效。 由於第一燈管部10及第二燈管部20係為可分離之設計, 所以當可置換驅動器之燈管結構1〇〇發生壞損狀況時,可以只 _ 針對壞損之元件進行更換,如此將不需要淘汰整體可置換驅動 器之燈管結構100,進而達到節省成本及原料之功效。 又在製造可置換驅動器之燈管結構1〇〇時,可以針對壞損 頻率較高以及使用壽命較短之部位大量生產,藉此降低出貨後 之產品售價,進而增加市場競爭力。 舉例來說,由於第一燈管部10具有發光單元12,而且發 光單元12於長期且長時間使用時,容易因熱累積而發生損壞, 進而影響整體可置換驅動器之燈管結構100之運作。此時便可 以單獨置換第一燈管部10,即可使可置換驅動器之燈管結構 11 201017030 100恢復正常運作。所以,當工廠生產可置換驅動器之燈管結 構100時,可以針對第一燈管部10進行大量生產,使得出貨 後之第一燈管部10可降低售價。 惟上述各實施例係用以說明本發明之特點,其目的在使熟 習該技術者能瞭解本發明之内容並據以實施,而非限定本發明 之專利範圍,故凡其他未脫離本發明所揭示之精神而完成之等 效修飾或修改,仍應包含在以下所述之申請專利範圍中。 ❿【圖式簡單說明】 第1圖係為本發明之一種可置換驅動器之燈管結構立體分解實 施例圖一。 第2圖係為本發明之一種可置換驅動器之燈管結構立體分解實 施例圖二。 第3圖係為本發明之一種可置換驅動器之燈管結構立體分解實 施例圖三。 ^ 第4圖係為本發明之一種可置換驅動器之燈管結構立體分解實 施例圖四。 第5圖係為本發明之一種可置換驅動器之燈管結構立體分解實 施例圖五。 第6圖係為本發明之一種可置換驅動器之燈管結構立體分解實 施例圖六。 第7圖係為第3圖之立體結合實施例圖。 12 201017030 【主要元件符號說明】 100......可置換驅動器之燈管結構 10 ........第一燈管部 11 ........透光殼體 12 ........發光單元 121……發光二極體 13 ........第一電性連接部 14 ........導線 ❹20........第二燈管部 21 ........殼體 22 ........驅動電路 23 ........第二電性連接部 24 ........第三電性連接部 25 ........套管 30........支撐件201017030 IX. INSTRUCTIONS: [Technical Field] The present invention is a lamp structure for a replaceable driver, and more particularly a lamp structure for a replaceable driver for illumination. [Prior Art] • Due to the advancement of life, people pay more and more attention to the quality of life, and indoor lighting is an important factor affecting the quality of life, especially the light-emitting diode lamp made by the light-emitting diode. The tube has the advantages of long service life and power saving of the light-emitting diode, so that the light-emitting diode lamp has the potential to replace the traditional fluorescent tube compared with the fluorescent tube currently in common use. As disclosed in the Republic of China Patent No. M331078, "Improved Light Emitting Diode Lamp", it comprises: a plurality of light transmitting portions; a heat sink; a plurality of light emitting diode modules; and two fixing sleeves. The light transmitting portion and the heat sink form a tube body, and the light emitting diode module is disposed on the base of the heat sink, and is located in the tube body and emits light through the light transmitting portion, and the fixing sleeve is fixed to the tube. Both ends of the body. The heat sink is used to help the heat dissipation of the LED module to extend the service life of the LED module, and the LED module and the driving circuit are respectively disposed at the ends of the tube body and the tube body. Fixed in the casing. In the previous case, the LED module and the driving circuit are separately arranged, but the sleeve is still fixed at both ends of the tube body, so that the fixing sleeve and the tube body are inseparable, so that the light-emitting diode in the tube body When one of the drive circuits in the module or the fixed bushing is irreparably damaged, the method is to eliminate the integral LED lamp, so that the still operational components are discarded, which leads to 201017030. Waste of raw materials and increased costs. SUMMARY OF THE INVENTION The present invention is a lamp tube structure of a replaceable driver, which is detachably coupled to the first lamp tube portion by the second lamp tube portion, so that when the lamp tube structure is damaged, it may be targeted only The damaged first lamp tube portion or the second lamp tube portion is replaced without eliminating the overall lamp tube structure, thereby achieving the effect of saving raw materials and cost. The invention relates to a lamp tube structure of a replaceable driver. Since the first lamp tube portion or the second lamp tube portion can be replaced separately, the first lamp tube portion or the second lamp with higher damage frequency can be manufactured at the time of manufacture. The pipe department carries out a relatively large amount of production to achieve the effect of lowering the selling price. In order to achieve the above effects, the present invention provides a lamp structure for a replaceable driver, comprising: a first lamp tube portion having: a light transmissive housing; an illumination unit disposed in the light transmissive housing; At least one first electrical connection portion is disposed on one side of the light-transmitting housing; and at least one second tube portion having: a shell climbing body; and a driving circuit disposed on the housing A second electrical connection portion and a third electrical connection portion are respectively formed on the two ends of the housing, and the second electrical connection portion is electrically connected to the first electrical connection portion in a separable manner. The mechanism is combined and the first lamp tube portion and the second lamp tube portion are integrated into one body. By the implementation of the present invention, at least the following advancements can be achieved: 1. When the lamp tube structure is damaged, the damaged first lamp tube portion or the second lamp tube portion can be replaced separately to replace the abandonment of the overall lamp tube structure. Therefore, the effect of saving raw materials and cost can be achieved. 7 201017030 2. Since the damage frequency of the first lamp part and the second lamp part are different, it is possible to mass-produce the components which are often damaged, so as to reduce the selling price. In order to make those skilled in the art understand the technical content of the present invention and implement it, and according to the disclosure, the patent scope and the drawings, the related objects and advantages of the present invention can be easily understood by those skilled in the art. DETAILED DESCRIPTION OF THE INVENTION The detailed description of the present invention and the preferred embodiments of the present invention are set forth in the accompanying drawings. FIG. 1 is a perspective exploded view of a lamp tube structure 100 of a replaceable actuator of the present invention. Fig. 2 is a perspective exploded view of a lamp tube structure 100 of a replaceable actuator of the present invention. Figure 3 is a perspective exploded view of a lamp tube structure 100 of a replaceable actuator of the present invention. Fig. 4 is a perspective exploded view of a lamp tube structure 100 of a replaceable actuator of the present invention. Figure 5 is a perspective exploded view of a lamp tube structure 100 of a replaceable actuator of the present invention. Figure 6 is a perspective exploded view of a lamp tube structure 100 of a replaceable actuator of the present invention. Fig. 7 is a view showing a combination of the embodiments of Fig. 3; As shown in Fig. 1, the embodiment is a lamp tube structure 100 of a replaceable actuator comprising: a first lamp tube portion 10; and at least a second lamp tube portion 20. The first tube portion 10 has a light-transmissive housing 11 , a light-emitting unit 12 , and at least one first electrical connection portion 13 . The light-transmissive housing 11 is a long hollow tubular body, and the 201017030 material of the light-transmitting housing 11 can be a light-transmissive glass material or a transparent plastic material, and the size of the light-transmitting housing 11 can be It is the size of T5 or T8. The light emitting unit 12 is disposed in the light transmissive housing 11 , and the light emitting unit 12 can be composed of at least one light emitting diode 121 , and the light emitting unit 12 can emit light through the light transmissive housing 11 . As shown in FIG. 3, the light-emitting unit 12 of the first tube portion 10 may be composed of a plurality of light-emitting diodes 121, and the arrangement of the light-emitting diodes 121 may be as shown in FIGS. 4 to 6 respectively. The light-emitting diode 121 can be arranged on both sides (as shown in FIG. 4), three-sided (as shown in FIG. 5) or multi-faceted (as shown in FIG. 6), so that The lamp structure 100 of the replacement drive achieves the effect of increasing the light exiting direction. The first electrical connecting portion 13 is disposed on one side of the light-transmitting housing 11 and can be electrically connected to the light-emitting unit 12 through the wire 14 for conducting power to enter the light-emitting unit 12, thereby driving the light-emitting unit 12 sold out. As shown in Fig. 1, when the lamp tube structure 1 of the replaceable driver has a second tube portion 20, it can be used for a lamp having a single-sided socket, such as a table lamp. The second tube portion 20 has a housing 21 and a drive circuit 22. The housing 21 is used to wrap the drive circuit 22 so that the internal drive circuit 22 can be protected from moisture. The driving circuit 22 is disposed in the housing 21, and the driving circuit 22 is formed with a second electrical connecting portion 23 and a third electrical connecting portion 24, and is respectively located at two ends of the housing 21. Further, the driving circuit 22 can be an AC/DC converter for converting the commercial AC power into a DC power source to drive the lighting unit 12. The driving circuit 22 can also be composed of an AC/DC converter and a controller 9 201017030. The controller can adjust the effects of full brightness, full flash, fade out, and fade out of the light emitting unit 12 . The second electrical connection portion 23 of the second lamp tube portion 20 is electrically and mechanically coupled to the first electrical connection portion 13 of the first lamp tube portion 10 in a detachable manner, that is to say the second electrical connection The portion 23 and the first electrical connection portion 13 can be separated from each other, and can be integrated into one body, and are electrically connected to each other when combined, thereby achieving the effect of light assembly. As shown in FIG. 2, when the lamp tube structure 100 of the replaceable driver has only one second lamp tube portion 20, one side of the first lamp tube portion 10 may further have a support member 30 and a support member 30. The structure of the lamp can be a G4, so that the lamp structure 100 of the replaceable driver can still be applied to the lamp of the household with the double socket, and the support member 30 is oppositely disposed on the first electrical connection portion 13, that is, the support member. The first electrical connecting portion 13 and the first electrical connecting portion 13 are respectively disposed at both ends of the first bulb portion 10. As shown in FIGS. 3 to 6, the lamp tube structure 100 of the replaceable driver has two second tube portions 20, and the first tube portion 10 and the second lamp of the lamp tube structure 100 of the replaceable driver are replaced. The tube portion 20 can be combined as shown in FIG. 1 to FIG. 3 . When the first electrical connection portion 13 is a female connector, the second electrical connection portion 23 is a male connector, so that the second electrical connection portion 23 is separable. Mode electrical and institutional combination. Or as shown in FIG. 4, the first electrical connection portion 13 may be a male connector, and the second electrical connection portion 23 may be a female connector. As shown in FIG. 5, the first electrical connection portion 13 may be a female connector, and the second electrical connection portion 23 may be a male connector with a sleeve 25 on the outer side, and then reinforced by the sleeve 25. The bonding strength between the first electrical connection portion 13 and the second electrical connection portion 23. As shown in FIG. 6, the first electrical connecting portion 13 can also be a screw, and the second electric power 201017030 connecting portion 23 can be a nut. As shown in FIG. 7, the second electrical connecting portion 23 and the first electrical connecting portion 13 are detachably coupled, so that the first tube portion 10 and the second tube portion 20 can be integrated. Lamp structure 100. The third electrical connection portion 24 of the second lamp tube portion 20 can be a G4 structure. Therefore, when the lamp structure 100 of the replaceable driver is used, the third electrical connection portion 24 of the second lamp tube portion 20 It can be directly inserted into the lamp socket of the household, and the AC power of the commercial power can be transmitted to the driving circuit 22 of the second lamp unit 20 through the third electrical connection portion 24, and then the AC power can be converted by the driving circuit 22. Into a DC power supply. The DC power supply can be transmitted to the first electrical connection portion 13 of the first lamp tube portion 10 through the second electrical connection portion 23, so that the first lamp tube portion 10 is electrically connected to the first electrical connection portion 13 The unit 12 can drive the light by the DC power source, thereby enabling the lamp structure of the replaceable driver to achieve the illumination effect. Since the first lamp tube portion 10 and the second lamp tube portion 20 are detachable, when the lamp structure 1 of the replaceable driver is damaged, it can be replaced only for the damaged component. In this way, it is not necessary to eliminate the lamp structure 100 of the overall replaceable drive, thereby achieving cost saving and raw material efficiency. In addition, when manufacturing the lamp structure of the replaceable driver, it can be mass-produced for parts with high damage frequency and short service life, thereby reducing the price of the product after shipment, thereby increasing market competitiveness. For example, since the first lamp tube portion 10 has the light-emitting unit 12, and the light-emitting unit 12 is used for a long period of time and for a long time, it is liable to be damaged by heat accumulation, thereby affecting the operation of the lamp-receiving structure 100 of the overall replaceable driver. At this time, the first lamp tube portion 10 can be replaced separately, so that the lamp tube structure 11 201017030 100 of the replaceable driver can be restored to normal operation. Therefore, when the factory produces the lamp tube structure 100 of the replaceable drive, mass production can be performed for the first lamp tube portion 10, so that the first lamp tube portion 10 after shipment can be lowered in price. The embodiments are described to illustrate the features of the present invention, and the purpose of the present invention is to enable those skilled in the art to understand the present invention and to implement the present invention without limiting the scope of the present invention. Equivalent modifications or modifications made by the spirit of the disclosure should still be included in the scope of the claims described below. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective exploded view of a lamp tube structure of a replaceable actuator of the present invention. Fig. 2 is a perspective exploded view of a lamp tube structure of a replaceable actuator of the present invention. Fig. 3 is a perspective exploded view of a lamp tube structure of a replaceable actuator of the present invention. ^ Fig. 4 is a perspective exploded view of a lamp tube structure of a replaceable actuator of the present invention. Figure 5 is a perspective exploded view of a lamp tube structure of a replaceable actuator of the present invention. Figure 6 is a perspective exploded view of a lamp tube structure of a replaceable actuator of the present invention. Fig. 7 is a perspective view of a three-dimensional embodiment of Fig. 3. 12 201017030 [Explanation of main component symbols] 100... Lamp structure of replaceable driver 10 ........ First lamp section 11 ........transparent housing 12 ........lighting unit 121...lighting diode 13 ........first electrical connection 14 ........wire ❹20....... .The second lamp tube portion 21 . . . the housing 22 . . . the drive circuit 23 . . . the second electrical connection portion 24 ... .. third electrical connection 25 ........ sleeve 30........ support
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