1271366 九、發明說明: 【發明所屬之技術領域^ 本發明係關於一種包裝及其承載結構,特別關於一種 燈管包裝組及其承載結構。 【先前技術】 隨著電子科技的進步,液晶顯示器(Liquid crystal Display,LCD)以其耗電量低、發熱量少、重量輕、以及 • 非輻射性等等優點,早已被使用於監視器、個人電腦、筆 記型電腦、及電視機等產品中,並且已逐漸地取代傳統的 陰極射線管顯示器(Cold Cathode Tube Display,CRT Display) o 一般而言,液晶顯示器係主要包含一液晶面板單元、 以及一背光模組。傳統上,主要係以螢光燈(Fluorescent Lamp)作背光模組中之光源。而螢光燈又可分為冷陰極榮 光燈( Cold Cathode Fluorescent Lamp, CCFL)、以及熱陰 •極螢光燈(Hot Cathode Fluorescent Lamp)。其中,冷陰極 螢光燈係以冷陰極電極來代替會發熱之熱陰極電極(例 如:鎢絲)而作成之螢光燈,由於冷陰極螢光燈可低溫啟 動,再加上高效和長壽之特點,故使得冷陰極螢光燈成為 背光模組中主要之光源。 冷陰極螢光燈依外觀形狀,大致上又可分為L形燈 管、直線形燈管、以及W形燈管。其中,l形燈管常用於 侧光型之背光模組中,以作為監視器(Monitor)、筆記型 1271366 電腦4的螢幕、或電視螢幕之背光模組等等。 當一支支的L形燈管製作完成後,需要具有缓衝應力 效果之包裝結構,以確保螢光燈於運送之過程中,不會因 為遭受外力而輕易破損。請參照圖1,習知技術的燈管包 裝組1係包含一箱體11、以及複數包裝盒體12。其中, 包裝盒體12係包覆複數L形燈管2,而複數包裝盒體12 則相互堆疊後,放置於箱體11内,再以膠帶封住箱體11, 而完成燈管包裝組1,以方便產品之運送。 • 請同時參照圖1及圖2,進行L形燈管2包裝時,係 先將複數L形燈管2集結成束(圖2中係以二支燈管為 例),再利用紙板121將L形燈管2進行包覆並以膠帶黏 合包裝盒體12。之後,則將一個個包裝盒體12相互組成 框形後,再疊置於箱體11内。 由圖1中可知,由於複數包裝盒體12係組成框形後, 再置放於箱體11内,故造成框形中央部份有大量浪費的 空間,進而提高了產品的運送成本。甚至,燈管包裝組1 還需要填充大量緩衝基材於該空間,以避免包裝盒體12 於運送過程中之晃動,如此一來,則又增加了燈管包裝組 1的成本。另外,習知的L形燈管2需要先利用人工集結 成束,再利用紙板121及膠帶將L形燈管2固定於包裝盒 '體12中,繁雜的包裝手續及人力的需求,也再再增加了 燈管包裝組1的成本。 承上所述,如何提供一種能增加燈管包裝組内燈管的 堆疊密度,同時又能簡化燈管包裝組的手續及人力需求之 1271366 燈官包裝纟及其燈管承載結構 果馬〜大課題!1271366 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a package and a load-bearing structure thereof, and more particularly to a lamp package group and a load-bearing structure thereof. [Prior Art] With the advancement of electronic technology, liquid crystal displays (LCDs) have long been used in monitors due to their low power consumption, low heat generation, light weight, and non-radiation. In the products such as personal computers, notebook computers, and televisions, and has gradually replaced the traditional cathode ray tube display (CRT Display) (in general, the liquid crystal display system mainly includes a liquid crystal panel unit, and A backlight module. Traditionally, a fluorescent lamp (Fluorescent Lamp) has been used as a light source in a backlight module. The fluorescent lamp can be further divided into a Cold Cathode Fluorescent Lamp (CCFL) and a Hot Cathode Fluorescent Lamp. Among them, the cold cathode fluorescent lamp is a fluorescent lamp made of a cold cathode electrode instead of a hot cathode electrode (for example, a tungsten wire), and the cold cathode fluorescent lamp can be started at a low temperature, together with high efficiency and longevity. The characteristics make the cold cathode fluorescent lamp the main light source in the backlight module. According to the shape of the cold cathode fluorescent lamp, it can be roughly divided into an L-shaped tube, a linear tube, and a W-shaped tube. Among them, the l-shaped lamp is often used in the backlight module of the sidelight type, and is used as a monitor, a screen of the notebook 1271366 computer 4, or a backlight module of a television screen, and the like. When a branch of the L-shaped lamp is completed, a packaging structure with a cushioning effect is required to ensure that the fluorescent lamp is not easily damaged by external force during transportation. Referring to Fig. 1, a conventional lamp package assembly 1 includes a case 11 and a plurality of package cases 12. The packaging box body 12 is covered with a plurality of L-shaped lamps 2, and the plurality of packaging boxes 12 are stacked on each other, placed in the casing 11, and then the casing 11 is sealed with tape, and the lamp packaging group 1 is completed. To facilitate the delivery of the product. • Please refer to Fig. 1 and Fig. 2 at the same time. When the L-shaped lamp tube 2 is packaged, the plurality of L-shaped tubes 2 are first bundled into bundles (two lamps are taken as an example in Fig. 2), and then the cardboard 121 is used. The L-shaped bulb 2 is coated and taped to the package body 12. Thereafter, the individual package bodies 12 are frame-shaped and then stacked in the casing 11. As can be seen from Fig. 1, since the plurality of packaging boxes 12 are frame-shaped and placed in the casing 11, a large amount of wasted space is formed in the central portion of the frame, thereby increasing the transportation cost of the product. Even, the lamp package group 1 needs to be filled with a large amount of cushioning substrate in the space to avoid the shaking of the package body 12 during transportation, which in turn increases the cost of the lamp package group 1. In addition, the conventional L-shaped tube 2 needs to be manually assembled into a bundle, and then the L-shaped tube 2 is fixed in the package body 12 by using the cardboard 121 and the tape, and the complicated packaging procedures and manpower requirements are also required. The cost of the lamp package group 1 is increased. According to the above description, how to provide a 1281366 lamp official package and its lamp bearing structure for the increase of the stacking density of the lamps in the lamp packaging group, and at the same time simplify the procedures and manpower requirements of the lamp packaging group. Question!
【發明内容;J 有鑑於上述課題,本發明之 組及其燈管承栽結構,不但能择力^提供—種燈管包裝 疊密度’同時又能簡化燈管心:包裝組内燈管的堆 求。 、、的手續並降低人力需 緣疋為達上述目的,依本發明 一連接部、及二承載部。其中—承2燈管承載結構包含 一側,另-㈣部係減於連 ^、設置於連接部之 別與連接部形成一角度,承载部係另-側,承載部係分 …為達上述目的,依本發明之燈I」具有二凸部。 複數燈管承载結構。盆中,产^ s I襄組包含-箱體及 ^各燈管承载結構係分:包含_= 系,疊祕 和其中-承载部係設置於連接連W、及二承載 設置於連接部之另一側。承载 側’另一承載部係 度’承载部係分別具有二凸部。Ί別與連接部形成-角 中,發明之燈管包裝組及其燈管承載-槿 〒燈^承載結構係具有二承载部並承載結構 以承载複數燈管。與f知技 連接部連接, ;其燈管繼構中之承:二包裝組 而相互叠合,以提二::卜:承,係利用凸部 形狀來承載並進行包裝,因此’本;明之 1271366 产管承载結構可避免無明的空間浪費’並增加堆疊密度’ 俾使單位體積之燈管包裝組中,具有較多數量之燈管。再 加上箱體形狀之配合,本發明之燈管包裝組可確實地減少 包装空間的浪費,進而能減少運送產品之成本。另外,由 於不需要先將袓數燈管集結成束,並以紙板先包覆,只要 直接將燈管放置於承載部上即可,因此減少了繁雜的包裝 、手續及人力的需求,故能降低燈管包裝組的成本。 φ 【實施方式】 以下將參照相關圖式,說明依本發明較佳實施例之燈 管包装組及其燈管容置結構。 首先,請參照圖3至圖6,以說明本發明較佳實施例 之燈管承载,结構。 請參閲圖3所示,燈管承載結構3〇包含一連接呷 及二承載部%。本實施例中,燈管承载結構3〇係^以承 载複數燈管4例如為複數冷陰極燈管,而燈管4係呈L •形。當然,燈管4除了是冷陰極螢光燈管之外,立 他種類的费光燈管。 疋’、 其中/承載部32係設置於連接部31之一側,另一承 -载部32係設置於連接部31之另—侧,承載部〜系:別 -與速接部31 =成—角度Θ。由於配合燈管4之形狀為l 形,因此承載部32與連接部31 4系形成一角度、而且由 圖中玎知,〆承載部32係相互形成約9〇度之角声, 燈管之彎曲角度配合。 1271366 •再請參照圖3,承載部32係分別具有二凸部321,凸 部321係分別設置於與連接部31相鄰之二侧邊,且二凸 部321係相對而設。其中,凸部321係具有一高度Η,高 度Η係大於各燈管4之直徑。如此一來,凸部321即可保 護燈管4,避免燈管4受外力直接碰撞。當然,凸部321 亦可設置在承載部32之其他位置。 本實施例中,燈管承載結構30係可為一體成型,也 就是說,連接部31及承載部32係為一體成型,其中,連 • 接部31及承載部32之材質可為泡棉、橡膠、紙板、塑膠、 或保麗龍。當然,連接部31及承載部32也可以是利用黏 合、嵌合、或其他的結合方式而連結在一起。 請參照圖4,其係為燈管承載結構之另一實施例之一 示意圖。 本實施例中,燈管承載結構30’更可具有複數支撐部 33,支撐部33係設置於連接部31。當燈管4係跨設於二 承載部32’時,支撐部33係支撐著燈管4,並可協助固 胃定燈管4,避免燈管4之彎折部份騰空。 請參照圖5及圖6,燈管承載結構30’之承載部32’ 係更可具有複數凹槽322,凹槽322係相互平行設置,而 ^ 燈管4係設置於凹槽322中。由於凹槽322之深度係大於 ' 燈管4之直徑,而且承載部32’之材質係具有緩衝應力之 功效,因此設置於承載部32’之燈管4係可獲得保護,避 免運送過程中燈管4受到外力而輕易破裂。當然,凹槽322 之深度也可以小於燈管4的直徑,用以協助燈管4的定位。 1271366 接著,請參照圖7至圖9以說明本發明較佳實施例之 燈管包裝組。 如圖7所示,燈管包裝組50係包含一箱體60、以及 複數燈管承載結構30。其中,箱體60係以紙箱為例,但 箱體60之材質並不限於此。 請參照圖8,其係為箱體60展開後之一示意圖。箱體 60係可由一具有折痕之紙板折合而成,也可加上黏膠或其 他固定物,以增加箱體60之強度。當然,也可具有其他 • 紙板形狀之變化,可以實際製程需要而改變紙板之形狀。 如圖9所示,本實施例中,箱體60係大致呈一長方 體,且具有一凹陷側61及一凸出側62,凹陷側61之形狀 係與凸出側62之形狀配合。也就是說,當凹陷側61之形 狀為一梯形柱時,凸出側62之形狀也為一梯形柱。如此 一來,若有複數箱體60時,則可利用一箱體60之凹陷側 61與另一箱體60’之凸出側62’配合,而使得箱體60, 60’可有較密的堆積,以節省運送空間。 另外,利用本實施例中箱體60的形狀設計,則有助 於辨識箱體60的方向性。因整體觀之,箱體60之外觀形 狀像是一個大箭頭,因此,有助於作業人員於搬運像燈管 此類的易碎物品時,可輕易標示出哪一面應朝上,故不易 發生箱體60倒置而破損的情形。 再請參照圖7,複數燈管承載結構30係相互疊設於箱 體60内。本實施例中,燈管承載結構30係與前述實施例 中之燈管承載結構30, 30’具有相同之功效及技術特徵, 1271366 於此不再贅述。 需補充的是,如圖ίο所示,燈管承載結構3〇,之凸 部32Γ係分別包含複數次凸部323,,次凸部323,係與 另一燈管承載結構30’嵌合。另外,燈管承载結構孙, 之凸部321’也可分別包含複數次凹部324, h n 324’係與另〆燈管承载結構30’嵌合。如此—來藉由 凸部321’上^次凸部323’及次凹部324,間的相互疊 合,不但可提高燈管承載結構30,之堆疊密度,更可提= • 燈管承載結構30’堆疊之穩固性。 升 承上戶斤述’本發明之燈管包裝組及其燈管承載結構 中,燈管承載結構係具有二承载部並經由一連接部連接, 以承载複數燈管。與習知技術相比,本發明之燈^包裝袓 及其燈管承,構中之承載部係分別與連接㈣二胃 度,以配合燈管之形狀。另外,燈管承载結構係利用凸部 而相互疊合,以提昇燈管堆疊之密度。由於係配人之 形狀來承載ϋ進行包裝,此,本發日狀奸包^及立 燈管承載結構可避免無謂的空間浪f,並增加堆㈣产,,、 俾使單位體積之燈管包裝財,具有較多數量之再 加上箱體雜之配合,本發明之㈣包I組可地減少 包裝空間的浪費,進而能減少運送產品之成本。 /由 ,需要先將複數燈管集結成束,並二板先包^外只: 手放置於承載部上即可’因此減少了繁雜的包裝 手、、,只及人力的需求’故能降低燈管包裝組的成本。 以上所述僅為舉例性,而非為限制性者。任何未脫離 11 1271366 本發明之精神與範疇,而對其進行之等效修改或變更,均 應包含於後附之申請專利範圍中。 【圖式簡單說明】 圖1係為習知之L形燈管包裝組之一立體分解圖; 圖2係為習知拆開之包裝盒體及燈管之一示意圖; 圖3係為本發明較佳實施例之燈管承載結構之一示意 圖, • 圖4係為本發明另一較佳實施例之燈管承载結構之一 不意圖, 圖5係為圖4之燈管承載結構拿下燈管後之一示意 圖, 圖6係為圖4之燈管承載結構沿直線A - A ’之一剖面示 意圖; 圖7係為本發明較佳實施例之燈管包裝組之一示意 圖; 圖8係為本發明較佳實施例燈管包裝組之箱體拆開後 之一不意圖, 圖9係為本發明較佳實施例之燈管包裝組,於運送過 程中,彼此相互堆疊之一示意圖;以及 圖10係為本發明較佳實施例之燈管承載結構,彼此 藉由次凸部及次凹部相互堆疊之一示意圖。 元件符號說明: 12 1271366SUMMARY OF THE INVENTION In view of the above problems, the group of the present invention and the lamp tube bearing structure thereof can not only provide a choice of the lamp package packing density but also simplify the lamp tube core: the lamp tube in the packaging group. Pile up. The procedure of reducing the manpower and reducing the manpower required to achieve the above object, according to the invention, a connecting portion and a second carrying portion. Wherein, the bearing structure of the 2 lamp tube comprises one side, the other - (4) part system is reduced by the connection, and the connection portion is formed at an angle with the connection portion, the bearing portion is further-side, and the bearing portion is divided into the above Purpose, a lamp I" according to the invention has two projections. A plurality of lamp tube bearing structures. In the basin, the production s I 襄 group includes - the box body and the tube supporting structure of the lamp: the _= system, the stacking and the carrying portion are disposed in the connecting connection W, and the second bearing is disposed at the connecting portion. The other side. The load-bearing side 'the other load-bearing portion' bearing portion has two convex portions, respectively. In the discerning and connecting portion forming angle, the inventive lamp tube packaging group and its lamp bearing-clamping lamp bearing structure have two carrying portions and carrying structures to carry a plurality of lamps. It is connected with the f-technical connection part; the lamp tube is constructed in the following two layers: the two package groups are superimposed on each other to raise the second::: the bearing is carried by the shape of the convex portion and is packaged, so 'this; Ming 1271366 production tube bearing structure can avoid ignorant space waste 'and increase the stack density' 俾 so that the unit volume of the lamp package group has a larger number of lamps. In addition, with the cooperation of the shape of the box, the lamp package group of the present invention can surely reduce the waste of the packaging space, thereby reducing the cost of transporting the product. In addition, since it is not necessary to first assemble the plurality of lamps into bundles and to cover the cardboard first, it is only necessary to directly place the lamps on the carrying portion, thereby reducing the complicated packaging, formalities, and manpower requirements. Reduce the cost of the lamp packaging group. [Embodiment] Hereinafter, a lamp package group and a lamp tube accommodating structure thereof according to a preferred embodiment of the present invention will be described with reference to the related drawings. First, please refer to Figs. 3 to 6 to illustrate the lamp tube bearing and structure of the preferred embodiment of the present invention. Referring to FIG. 3, the lamp bearing structure 3A includes a connecting port and two carrier portions. In this embodiment, the lamp tube supporting structure 3 is configured to carry a plurality of lamps 4, for example, a plurality of cold cathode lamps, and the tubes 4 are L-shaped. Of course, in addition to the cold cathode fluorescent tube, the tube 4 is a light-emitting tube of its kind.疋', wherein the carrying portion 32 is disposed on one side of the connecting portion 31, and the other bearing portion 32 is disposed on the other side of the connecting portion 31, and the carrying portion is tied to the quick connecting portion 31. - Angle Θ. Since the shape of the matching lamp tube 4 is l-shaped, the bearing portion 32 forms an angle with the connecting portion 314, and it is known from the figure that the dam-bearing portion 32 forms an angular sound of about 9 degrees with each other, the lamp tube Bending angle fit. 1271366. Referring again to Fig. 3, the carrying portion 32 has two convex portions 321 respectively, and the convex portions 321 are respectively disposed on two side edges adjacent to the connecting portion 31, and the two convex portions 321 are opposite to each other. The convex portion 321 has a height Η, and the height Η is larger than the diameter of each of the lamps 4. In this way, the convex portion 321 can protect the bulb 4, and the bulb 4 can be prevented from directly colliding with an external force. Of course, the convex portion 321 may also be disposed at other positions of the carrying portion 32. In this embodiment, the lamp bearing structure 30 can be integrally formed, that is, the connecting portion 31 and the carrying portion 32 are integrally formed, wherein the material of the connecting portion 31 and the carrying portion 32 can be foam, Rubber, cardboard, plastic, or styrofoam. Of course, the connecting portion 31 and the carrying portion 32 may be joined together by bonding, fitting, or other bonding means. Please refer to FIG. 4, which is a schematic diagram of another embodiment of a lamp tube carrying structure. In this embodiment, the lamp bearing structure 30' may further have a plurality of supporting portions 33, and the supporting portion 33 is disposed at the connecting portion 31. When the bulb 4 is spanned over the two carrying portions 32', the supporting portion 33 supports the bulb 4 and assists in fixing the bulb 4 to prevent the bent portion of the bulb 4 from vacating. Referring to FIG. 5 and FIG. 6, the bearing portion 32' of the lamp bearing structure 30' may further have a plurality of grooves 322, and the grooves 322 are disposed in parallel with each other, and the lamp tube 4 is disposed in the groove 322. Since the depth of the groove 322 is larger than the diameter of the 'light tube 4, and the material of the bearing portion 32' has the effect of buffering stress, the lamp tube 4 disposed on the carrying portion 32' can be protected from the light during transportation. The tube 4 is easily broken by an external force. Of course, the depth of the recess 322 can also be smaller than the diameter of the bulb 4 to assist in the positioning of the bulb 4. 1271366 Next, referring to Figures 7 through 9, a lamp package package in accordance with a preferred embodiment of the present invention will be described. As shown in FIG. 7, the lamp package group 50 includes a case 60 and a plurality of lamp tube carrying structures 30. The case 60 is exemplified by a carton, but the material of the case 60 is not limited thereto. Please refer to FIG. 8 , which is a schematic diagram of the housing 60 after deployment. The casing 60 can be folded from a creased cardboard, or an adhesive or other fixture can be added to increase the strength of the casing 60. Of course, there are other variations in the shape of the cardboard that can change the shape of the cardboard for actual process needs. As shown in Fig. 9, in the present embodiment, the casing 60 is substantially rectangular and has a concave side 61 and a convex side 62. The shape of the concave side 61 is matched with the shape of the convex side 62. That is, when the shape of the recessed side 61 is a trapezoidal column, the shape of the convex side 62 is also a trapezoidal column. In this way, if there are a plurality of boxes 60, the recessed side 61 of one box 60 can be engaged with the protruding side 62' of the other box 60', so that the cabinets 60, 60' can be denser. Stacked to save on shipping space. Further, the shape design of the casing 60 in the present embodiment contributes to the identification of the directivity of the casing 60. Because of the overall view, the shape of the box 60 is like a large arrow, so that the operator can easily indicate which side should face upward when carrying a fragile item such as a lamp tube, so it is not easy to occur. The case 60 is inverted and broken. Referring again to Figure 7, a plurality of lamp tube carrying structures 30 are stacked one upon another within the housing 60. In this embodiment, the lamp bearing structure 30 has the same functions and technical features as the lamp bearing structure 30, 30' in the foregoing embodiment, and 1271366 will not be described herein. It should be noted that, as shown in FIG. 1, the lamp bearing structure 3 is formed, and the convex portion 32 includes a plurality of convex portions 323 respectively, and the secondary convex portion 323 is fitted to the other light pipe supporting structure 30'. In addition, the lamp-bearing structure sun, the convex portion 321' may also include a plurality of recesses 324, respectively, and h n 324' is fitted to the other lamp tube bearing structure 30'. In this way, by overlapping the convex portions 323' and the secondary concave portions 324 of the convex portion 321', the stacking density of the lamp-bearing structure 30 can be increased, and the stacking density can be improved. 'The stability of the stack. In the lamp tube packaging group and the lamp tube carrying structure of the present invention, the lamp bearing structure has two carrying portions and is connected via a connecting portion to carry a plurality of lamps. Compared with the prior art, the lamp package of the present invention and its lamp tube support structure are respectively connected with (4) two stomachs to match the shape of the lamp tube. In addition, the lamp bearing structures are superposed on each other by means of the projections to increase the density of the lamp stack. Because the shape of the matching person is used to carry the raft for packaging, the hair styling package and the vertical tube bearing structure can avoid unnecessary space waves, and increase the pile (four) production, and 俾 make the unit volume of the tube Packing money, with a larger number and the cooperation of the cabinet, the (4) package I of the present invention can reduce the waste of the packaging space, thereby reducing the cost of transporting the product. / By, you need to first collect the multiple tubes into bundles, and the second board should be packaged first. Only the hand can be placed on the carrying part. This reduces the need for complicated packaging, and only the manpower. The cost of the lamp packaging group. The above is intended to be illustrative only and not limiting. Any changes or modifications of the spirit and scope of the present invention are intended to be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective exploded view of a conventional L-shaped lamp package group; FIG. 2 is a schematic view of a package body and a lamp tube which are conventionally disassembled; BRIEF DESCRIPTION OF THE DRAWINGS FIG. 4 is a schematic view of a lamp tube carrying structure according to another preferred embodiment of the present invention, and FIG. 5 is a lamp tube carrying structure of FIG. FIG. 6 is a schematic cross-sectional view of the lamp tube carrying structure of FIG. 4 along a line A - A '; FIG. 7 is a schematic view of a lamp package group according to a preferred embodiment of the present invention; 1 is a schematic view of a lamp package group of the preferred embodiment of the present invention, and FIG. 9 is a schematic view showing a lamp package group according to a preferred embodiment of the present invention stacked on each other during transportation; FIG. 10 is a schematic view showing a lamp tube carrying structure according to a preferred embodiment of the present invention, which are stacked on each other by sub-protrusions and sub-recesses. Symbol Description: 12 1271366
1 燈管包裝組 11 箱體 12 包裝盒體 121 紙板 2 L形燈管 30,30, 燈管承載結構 31 連接部 32, 32, 承載部 321 凸部 321, 凸部 322 凹槽 323’ 次凸部 324’ 次凹部 33 支撐部 4 燈管 50 燈管包裝組 60,60, 箱體 61 凹陷側 62,62, 凸出側 A-A, 直線 Θ 角度 Η 高度1 Lamp packaging group 11 Box 12 Packing box 121 Cardboard 2 L-shaped tube 30, 30, lamp bearing structure 31 Connecting portion 32, 32, bearing portion 321 convex portion 321, convex portion 322 groove 323' subconvex Part 324' secondary recess 33 support portion 4 lamp tube 50 lamp package group 60, 60, box 61 recessed side 62, 62, convex side AA, straight line Η angle Η height