201009243 六、發明說明: 【發明所屬之技術領域】 更特定言之係關於 彈簧裝置之一種裝 本發明係關於發光二極體裝配結構, 包括一發光二極體模組、一燈架、及— 配結構。此外’提出用於安裝—發光二極體模組至具有 彈簧裝置之一燈架上的一種方法。 【先前技術】 現今發光二極體(LED)被廣泛利用在光源中。在實務上 led通常被配置在包括複數個LED的LED模組中,其被配 置在一基座板上及被電互連在該基座板上。 美國專利第6,582,100 B1號揭示—電力驅動L]gD模組及 安裝該LED模組的一種方法。該LED模組包括例如由鋁製 成的一導電及導熱的熱消散器,及其被配置在具有電路跡 線設置在絕緣層上的一電絕緣層之下,一個或多個LED被 配置在其上使得利用提供電力給LEI)的電路跡線實現電接 觸。每個LED用獨立的且大體係u形的包括支架之固持裝 置在電路跡線上被保持在適當的位置,固持裝置包括一拉 緊部分以接合LED至與熱消散器熱接合。該拉緊部分可包 括在支架上的倒鉤及/或支架中的波紋。此等支架被配置 成在熱消散器與絕緣層之一通孔中接合,或固定至在熱消 散器與絕緣層中的一開口。由於一夾持部分,使led及U 形固持裝置之預裝配成為可能’該夾持部分藉由在每個支 架上的波紋及/或柄腳被配置。不需要焊接led。201009243 VI. Description of the invention: [Technical field to which the invention pertains] More specifically, the invention relates to a mounting device for a light-emitting diode, comprising a light-emitting diode module, a light stand, and With the structure. Furthermore, a method for mounting a light-emitting diode module to a lamp holder having a spring device has been proposed. [Prior Art] Today, light-emitting diodes (LEDs) are widely used in light sources. In practice, the led is typically configured in an LED module that includes a plurality of LEDs that are disposed on a base plate and electrically interconnected to the base plate. U.S. Patent No. 6,582,100 B1 discloses an electrically powered L]gD module and a method of mounting the LED module. The LED module includes an electrically and thermally conductive heat dissipator, for example made of aluminum, and is disposed under an electrically insulating layer having circuit traces disposed on the insulating layer, the one or more LEDs being disposed This allows electrical contact to be made with circuit traces that provide power to the LEI). Each LED is held in place on the circuit trace with a separate and large system u-shaped retaining device including a bracket that includes a tensioning portion to engage the LED to thermally engage the heat dissipator. The tensioning portion can include barbs on the bracket and/or corrugations in the bracket. The brackets are configured to engage in a through hole of one of the heat dissipator and the insulating layer, or to an opening in the heat dissipator and the insulating layer. Pre-assembly of the led and U-shaped retaining means is made possible by a clamping portion which is configured by corrugations and/or tangs on each of the brackets. There is no need to solder the led.
為了獲得一理想的燈應用’如上描述的先前技術的LED 140289.doc -4- 201009243 模組將進一步需要與一燈架裝配在一起。 用於一 LED燈應用的一先前技術裝配結構在美國專利第 7,325,949 B1號中被揭示。該裝配結構包括一 LED燈及熱 消散模組。該LED燈包含一外殼及一 LED模組。該LED模 組被放置在該外殼的一容納孔内,且進一步被配置在該外 殼及該熱消散模組之間。該外殼配置有閂鎖部分使得該熱 消散模組對著外殼被擠壓時,LED模組置於該熱消散模組 與該外殼之間,使其在一安裝位置被鎖定。為了拆卸該裝 配結構,該閂鎖部分將需要被移除。 該裝配結構進一步被配置成具有複數個彈性體,此等彈 性體被配置在該外殼的一容納孔内,且進一步被配置成向 在安裝位置的熱消散器模組擠壓LED模組。因此此先前技 術的裝配結構含有複數個小的部件,亦即諸彈性體,其等 被謹慎地放置在相應於每個彈性體的孔内,該等孔被配置 在外殼内以為了固持彈性體之目的。 當在燈應用中利用LED模組時,重要的係以一快速且牢 固的方式裝配LED模組及燈架。為了保養與修理的目的, 同樣理想的係實現一種裝配結構,其同樣很容易被拆卸, 較佳地係不需要使用一工具。 【發明内容】 本發明之一目的係提供一種包括一發光二極體模組的裝 配結構及用於安裝一發光二極體模組至—燈架上的一方 法,其減少以上提到先前技術之至少一缺點。 此目的藉由依照本發明如技術方案1至9之一種裝配結構 140289.doc 201009243 及方法被實現。 因此,依照本發明之—第一 , 弟〜、樣k供包括一發光二極 體(LED)模組、一燈架及— 彈簧裝置包括一主體’·_第一 _配結構。該 配置在該主體之-第4丨 件’該第一固持部件 1… 固持該發光二極體模組;-第 —固持部件,該篦-Α ^ 架;-第-彈性於接合該彈簧裝置與該燈 、 兀,該第一彈性元件用於在該第一 © # 丨仟興.亥發光一極體摈組之間起作用;及 件,該第二彈性元件用於 一彈兀 上的-接收部分之間起作用在省燈表 用°亥第一彈性疋件被配置成當 致動時釋放該第一固持部件, 且°亥第一無性元件被配置成 當致動時釋放該第二固持部件。 夏取 因此’提供包括一彈簧梦署夕 壯 — #黃裝置之-裝配結構以安裝一發光 一極體模組至一燈架上,今奘邮4士 4妓衫 Μ裝配、,Ό構係機械地簡 的。該彈簧裝置被配置用於固持在一 乐固持部件内之發 光二極體模組及進一步配置為1有一 八虿第—固持部件以接合 該彈簧裝置與該燈架。該第一固持部件及第二固持部件被 提供具有-第-彈性元件及一第二彈性元件,其等分別與 發光二極體模組及燈架之接收部分起作用。如此,當安裝 時發光二極體模組被保持與彈菁裝置接合,且當安:㈣ 彈簧裝置被保持與燈架接合。該第一彈性元件斑該第二彈/ 性元件進-步被配置成當致動時分別釋放該第一固持部件 及5亥第一固持部件。因此,以_餘gg + 間单方法,該彈簧裝置提 供發光二極體模組對-燈架的安裝及拆卸而不需要應用一 140289.doc -6- 201009243 工具。此有利的係例如在一燈產品中利用LED模組時。本 發明概念提供一種簡單的裝配及拆解程序用於製造及維 護。若需要,LED模組可便利地以一單—操作更換。此 外,彈簀裝置能有利地一體及低成本的被製造,此使得完 成的燈產品成本在最低水準。 依照裝配結構之一實施例,彈簧裝置之第一彈性元件及 第一彈性元件係互連的,這使得一外力同時致動該第一彈 性元件及該第二彈性元件。該led模組因此以單步作業被 ® 單地安裝或拆卸。 依照裝配結構之一實施例,彈簧裝置之主體之至少—部 分被配置成與燈架熱接合,其係有利地因為LED模組在操 作中產生大量的熱。在本發明概念中,該LED模組被與彈 簧裝置熱接合,彈簧裝置再與該燈架熱接合。該燈架因此 作用為LED模組之一散熱座。 依照裝配結構之一實施例,彈簧裝置之主體進一步被配 φ 置成接收一外部散熱座,其對高功率應用係有利的。 依照裝配結構之一實施例,彈簧裝置之主體之一末端部 分被配置成樞軸地配置於燈架上。該彈簧裝置然後可有利 • &被配置成_地配置於燈架上,使得當彈簀裝置被向上 轉時LED模組之安裝及拆卸可完成。該彈簀裝置可永久 框轴地配置至燈架,若在燈的維護過程中打開,在這清形 中使用者不需要留心該彈簧裝置的所在。 依照裝配結構之—實施例,彈簧裝置之主體包括散熱.鰭 片,其為LED模組提供一額外的散熱座。 140289.doc 201009243 依照裝配結構之一實施例,該主體進一步包括一光孔徑 用於傳遞從發光二極體模組發射的光。 依照裝配結構之一實施例,該燈架或彈簧裝置被配置有 至少一第三彈性元件以熱接合彈簧裝置及燈架。該至少一 第二彈性TL件提供一對抗力,其在彈簧裝置及燈架之間起 作用及確保一強力熱接觸。此外’彈簧裝置與燈架之機械 鎖疋因此配置而變得非常的穩定。In order to obtain an ideal lamp application, the prior art LED 140289.doc -4- 201009243 module as described above will further need to be assembled with a light fixture. A prior art assembly structure for an LED lamp application is disclosed in U.S. Patent No. 7,325,949 B1. The assembly structure includes an LED lamp and a heat dissipation module. The LED lamp comprises a housing and an LED module. The LED module is placed in a receiving hole of the housing and further disposed between the housing and the heat dissipation module. The housing is provided with a latching portion such that when the heat dissipating module is pressed against the housing, the LED module is placed between the thermal dissipating module and the housing to be locked in an installed position. In order to disassemble the assembly structure, the latch portion will need to be removed. The assembly structure is further configured to have a plurality of elastomers disposed within a receiving aperture of the housing and further configured to squeeze the LED modules toward the heat dissipator module in the installed position. Thus, the prior art assembly structure contains a plurality of small components, i.e., elastomers, which are placed cautiously in the holes corresponding to each of the elastomers, the holes being disposed within the outer casing for retaining the elastomer The purpose. When using LED modules in lamp applications, it is important to assemble the LED modules and light fixtures in a fast and robust manner. For maintenance and repair purposes, it is also desirable to implement an assembly structure that is equally easy to disassemble, preferably without the use of a tool. SUMMARY OF THE INVENTION An object of the present invention is to provide an assembly structure including a light emitting diode module and a method for mounting a light emitting diode module to a light fixture, which reduces the above mentioned prior art At least one disadvantage. This object is achieved by an assembly structure 140289.doc 201009243 and method according to the present invention as in claims 1 to 9. Accordingly, in accordance with the present invention, a first embodiment of the present invention includes a light emitting diode (LED) module, a light fixture, and a spring device including a body '·_ first configuration. The first holding member 1 of the main body of the main body holds the light emitting diode module; the first holding member, the first holding member, and the first elastic member for engaging the spring device And the lamp, the first elastic element is configured to function between the first group of light-emitting elements; and the second elastic element is used for a magazine - a function between the receiving portions is used in the light saving table. The first elastic member is configured to release the first holding member when actuated, and the first free element is configured to release the actuating element when actuated Second holding component. Xia took a 'supplied to include a spring dream office 壮 — - #黄装置 - assembly structure to install a luminous one-pole module to a light frame, today's post 4 4 妓 4 妓 Μ assembly, Ό 系Mechanically simple. The spring device is configured to hold a light emitting diode module within a music retaining member and further configured to have an eight-inch first retaining member for engaging the spring device with the light fixture. The first holding member and the second holding member are provided with a -first elastic member and a second elastic member, respectively acting on the light emitting diode module and the receiving portion of the light holder. Thus, the LED module is held in engagement with the elastomeric device when installed, and when the (4) spring device is held in engagement with the lamp holder. The first elastic element spot is further configured to release the first holding member and the first holding member respectively when actuated. Therefore, the spring device provides the installation and removal of the light-emitting diode module pair-light holder in a _ residual gg + single-single method without the need to apply a 140289.doc -6- 201009243 tool. This is advantageous, for example, when an LED module is used in a lamp product. The present inventive concept provides a simple assembly and disassembly procedure for manufacturing and maintenance. If desired, the LED module can be conveniently replaced in a single operation. In addition, the magazine device can be advantageously integrated and low cost, which results in the lowest cost of the finished lamp product. According to one embodiment of the assembly structure, the first resilient member of the spring means and the first resilient member are interconnected such that an external force simultaneously activates the first resilient member and the second resilient member. The LED module is thus mounted or removed in a single step by a single operation. According to one embodiment of the assembly structure, at least a portion of the body of the spring means is configured to be in thermal engagement with the lamp holder, advantageously because the LED module generates a significant amount of heat during operation. In the inventive concept, the LED module is thermally coupled to the spring device, and the spring device is in thermal engagement with the lamp holder. The lamp holder thus acts as a heat sink for the LED module. According to one embodiment of the assembly structure, the body of the spring means is further configured to receive an external heat sink which is advantageous for high power applications. According to one embodiment of the assembly structure, one end portion of the body of the spring device is configured to be pivotally disposed on the light fixture. The spring means can then be advantageously configured to be disposed on the light fixture such that installation and removal of the LED module can be accomplished when the magazine is rotated upward. The magazine device can be permanently framed to the lamp holder, and if it is opened during maintenance of the lamp, the user does not need to pay attention to the location of the spring device during this cleaning. According to an embodiment of the assembly structure, the body of the spring device includes a heat sink fin that provides an additional heat sink for the LED module. 140289.doc 201009243 According to an embodiment of the assembly structure, the body further includes an aperture for transmitting light emitted from the LED module. In accordance with an embodiment of the assembled structure, the light stand or spring means is configured with at least a third resilient member for thermally engaging the spring means and the light holder. The at least one second resilient TL member provides a counter force that acts between the spring means and the light fixture and ensures a strong thermal contact. In addition, the mechanical locking of the spring device and the lamp holder is thus configured to be very stable.
依…、本發明之一第二態樣,提供將一發光二極體模組安 裝至一燈架之一種方法,該方法包括: 提供一彈簧裝置,該裝置包括: 第一固持部件,該第一固持部件配置在該 體之;第一側以固持該發光二極體模組,一第二固持i 件:该第二固持部件用於接合該彈簧裝置與該燈架,一】 ::性疋件’該第-彈性元件用於在該第-固持部她 發光二極體模組之間起 、 彈性元件用於在第第—掉性兀件’該第:According to a second aspect of the present invention, a method of mounting a light emitting diode module to a light fixture is provided, the method comprising: providing a spring device, the device comprising: a first holding member, the first a holding member is disposed on the body; the first side is for holding the light emitting diode module, and the second holding member is for: the second holding member is for engaging the spring device and the light frame, The first elastic element is used between the light-emitting diode modules of the first-holding portion, and the elastic element is used for the first-dropping element.
分之間起作用置在該燈架上的_ 放該第-固持料,及=彈性元件被配置成當致動時乘 釋放該第:固持部件;件被配置成當致動担 彈加—第—外力釋放該第一固持部件以致動該第— 固持部件内; 第一固持部件内之該發 風置该發光二極體模組在該 藉由移除該第-外力而鎖定 光二極體模組; 140289.doc -8- 201009243 :由施加一第二外力而釋放該第二固持部件以致動該第 二彈性元件; 放置該第二固持部件在配置在該燈架上的一第一接收部 分内; ^ 藉由移除該第二外力而鎖定在該第—接收部分内之該第 二固持部件。 ,本發明提供在iHLED模組之_便利的安裝及 φ 冑反向執行時的一拆卸。此外,本方法係快速的且不需要 任何額外工具。安袭及拆卸程序之基本功能係安裝LED模 組之一按壓及拆卸led模組之一按壓。 依照本方法之一實施例,第一彈性元件及第二彈性元件 係互連的。釋放第一固持部件之步驟及釋放第二固持部件 之步驟藉由施加用於致動該第一彈性元件及該第二彈性元 件之一共同外力被同時完成。 依照本方法之一實施例,提供一彈簧裝置之步驟進—步 • &括:配置彈簧裝置之主體的至少-部分用於熱接合該燈 架。因此,該方法進一步在LED模組與燈架之間(經由彈簧 裝置)提供一可靠的熱接觸。該燈架然後擔當LED模組之一 • 散熱座的角色。 • 依照本方法之一實施例,提供一彈簧裝置之步驟進—步 包括:安裝外部散熱座在該主體之一第二側,使得配置在 該外部散熱座上的固持突出部分突出通過配置在該主體内 的孔。該等固持突出部分形成第一固持部件。 依照本方法之一實施例,提供一彈簧裝置之步驟進一步 140289.doc -9- 201009243 包括配置該主體之-末端部分成為柩轴。該方法進—步包 括,在將發光二極體模組鎖定在該第一固持裝置内之步驟 後,配置該主體之樞軸末端部分至配置在該燈架上的一第 二接收部分。 依照本方法之一實施例,該燈架被配置有至少—第三彈 性7L件以接收該主體之至少一部分,此提供一額外的力以 按壓該主體之部分,該部分被配置成在彈菁裝置及燈架之 間提供朝向燈架之一熱介面。 本發明之此等及其他態樣、特冑及優點將從下文描述的 實施例顯而易見及參考下文描述的實施例加以闡明。 【實施方式】 現在本發明將更詳細被描述及參考所附圖示。 圖la)係依照本發明的一裝配結構之一實施例之—透視 圖。為了清楚起見,在這裏被顯示的裝配結構1〇〇係安裝 之前的。裝配結構100包括一彈簧裝置11〇、一led模組 1〇5及一燈架130。在這裏的燈架130具有一光孔徑135及用 於安裝彈簧裝置11〇之一接收部分136,其另外固持LED模 組105在其上。光孔徑135可具有一保護玻璃或—透鏡(未 顯示)。Between the points acting on the lamp holder _ placing the first-holding material, and = the elastic element is configured to release the first: holding member when actuated; the member is configured to actuate the load-bearing - The first external force releases the first holding member to actuate the first holding member; the wind in the first holding member sets the light emitting diode module to lock the light diode by removing the first external force Module; 140289.doc -8- 201009243: releasing the second holding member by applying a second external force to actuate the second elastic member; placing the second holding member on a first receiving disposed on the lamp holder In the portion; ^ the second holding member locked in the first receiving portion by removing the second external force. The present invention provides a convenient installation of the iHLED module and a disassembly of the φ 胄 reverse execution. Moreover, the method is fast and does not require any additional tools. The basic function of the assault and disassembly procedure is to install one of the LED modules to press and disassemble one of the led modules. In accordance with an embodiment of the method, the first resilient member and the second resilient member are interconnected. The step of releasing the first holding member and the step of releasing the second holding member are simultaneously performed by applying a common external force for actuating one of the first elastic member and the second elastic member. In accordance with an embodiment of the method, the step of providing a spring means is advanced. & Included: Configuring at least a portion of the body of the spring means for thermally engaging the lamp holder. Therefore, the method further provides a reliable thermal contact between the LED module and the lamp holder (via the spring means). The light stand then acts as one of the LED modules • the role of the heat sink. In accordance with an embodiment of the present method, the step of providing a spring device further includes: installing an external heat sink on a second side of the body such that a retaining projection disposed on the external heat sink protrudes through the configuration A hole in the body. The retaining projections form a first retaining member. In accordance with an embodiment of the method, the step of providing a spring means further 140289.doc -9-201009243 includes configuring the end portion of the body to be a yoke. The method further includes, after the step of locking the LED module in the first holding device, the pivot end portion of the body to a second receiving portion disposed on the lamp holder. In accordance with an embodiment of the method, the light fixture is configured with at least a third elastic 7L member to receive at least a portion of the body, which provides an additional force to press a portion of the body that is configured to A heat interface is provided between the device and the lamp holder toward the lamp holder. These and other aspects, features and advantages of the present invention will be apparent from the embodiments described hereinafter. [Embodiment] The present invention will now be described in more detail and with reference to the accompanying drawings. Figure la) is a perspective view of an embodiment of an assembled structure in accordance with the present invention. For the sake of clarity, the assembly structure 1 shown here is before the installation. The assembly structure 100 includes a spring device 11A, a LED module 1〇5, and a lamp holder 130. The lamp holder 130 herein has a light aperture 135 and a receiving portion 136 for mounting the spring means 11 另外 which additionally holds the LED module 105 thereon. Light aperture 135 can have a protective glass or lens (not shown).
彈簧裝置110包括一主體lu。這裏主體lu係圓形的以 匹配光孔徑135之形狀及燈架130之接收部分136。主體ln 具有—第一固持部件120,其在此例示性實施例t包括四 個第—固持元件,見圖lb),配置在彈簧裝置u〇之一底 部。第一固持部件120被配置成固持在一安裝位置的LED 140289.doc -10- 201009243 模組105。 第一固持部件12〇之每個第一固持元件與一第一彈性元 件125接σ,§亥第一彈性元件被配置以壓迫第一固持部件 1 0至鎖疋位置,使得當LED模組1 〇5被安裝在該第—固 持。卩件120時,在該第一固持部件12〇與led模組之間 提供有一反作用力。 模、且1 05之女裝藉由在第一彈性元件125上擠壓以釋 放及打開該第-固持元件被完成,使得LED模組105被允 許放置在第一固持部件丨2〇中。 隨後,第一固持部件120藉由釋放在第一彈性元件125上 之壓緊力被鎖冑’因此第-固持部件120之第一固持元件 被再次關閉。 或者,第一彈性元件125被配置使得其具有兩個不同的 鎖疋位置。在'第-靜態位置’第-固持部件120被鎖 疋而在第一靜態位置,第一固持部件丨2〇被釋放。第 二靜態位置藉由在第—彈性元件125上向下擠壓而達到。 為了從第二靜態位置再進入第一靜態位置,第一彈性部件 必須被壓至相反方向,從而第一固持部件丨2〇被再次鎖 定。 彈簧裝置110進一步被配置成被安裝在燈架13〇上。一用 於接合彈簧裝置110與燈架的第二固持部件140被配置在主 體111上。在此例示性實施例中,第二固持部件14〇包括四 個第二固持元件,放置在週邊及從主體111突出。第二固 持部件140之第二固持元件進一步被放置以匹配接㈣分 140289.doc • 11 - 201009243 說相應的第一接收部分元件 架130内。 此等被配置在燈 第一彈後το件15G ’其在這襄與每個第二固持元件相 關的第二彈性元件—起 Μ - fil ^ ^ 职糟田在圖h)中的用於 的)^第°彈140之第二固持元件的第二彈性元们50例示 的第-彈性元件被配置以在第二固持部件之第二 固持部件元件盘分別沾贫 . ”刀另J的第一接收部分元件136之間 用。 卜 ΦThe spring device 110 includes a body lu. Here, the body lu is circular to match the shape of the aperture 135 and the receiving portion 136 of the lamp holder 130. The body ln has a first retaining member 120, which in this exemplary embodiment t includes four first retaining members, see Figure lb, disposed at one of the bottoms of the spring means u. The first holding component 120 is configured to hold the LEDs 140289.doc -10- 201009243 module 105 in a mounting position. Each of the first holding members of the first holding member 12 is coupled to a first elastic member 125, and the first elastic member is configured to press the first holding member 10 to the lock position, so that when the LED module 1 is 〇5 is installed in the first-holding. In the case of the member 120, a reaction force is provided between the first holding member 12A and the led module. The mold, and the women's wear of the 05 is completed by squeezing on the first elastic member 125 to release and open the first holding member, so that the LED module 105 is allowed to be placed in the first holding member 〇2〇. Subsequently, the first holding member 120 is locked by releasing the pressing force on the first elastic member 125, so that the first holding member of the first holding member 120 is closed again. Alternatively, the first resilient element 125 is configured such that it has two different latching positions. In the 'first-static position', the first holding member 120 is locked and in the first static position, the first holding member 丨2 is released. The second static position is achieved by pressing down on the first elastic member 125. In order to re-enter the first static position from the second static position, the first resilient member must be pressed in the opposite direction so that the first holding member 丨2〇 is locked again. The spring device 110 is further configured to be mounted on the light fixture 13A. A second holding member 140 for engaging the spring device 110 and the lamp holder is disposed on the main body 111. In this exemplary embodiment, the second retaining member 14A includes four second retaining members that are placed at and project from the body 111. The second holding member of the second holding member 140 is further placed to match the joint (four) points 140289.doc • 11 - 201009243 in the corresponding first receiving portion frame 130. These are arranged after the first spring of the lamp, the piece 15G 'which is the second elastic element associated with each of the second holding elements - fil - fil ^ ^ in the figure h) The second elastic element of the second retaining member of the second retaining member 50 is configured such that the second retaining member of the second retaining member is inferior to the second retaining member. Used between the receiving part 136.
此外,當藉由向彈菁裝置之中心施加—力而致動第二$ 性兀件150時,第二固持部件刚從—安裝位置被釋放。^ 就係,當例如第二固持元件⑽被配置在第—接收部分月 件136時,第二彈性元件15〇提供一力以在第二固持元科 140與燈架130之間起作用’保持彈簧裝置110與燈架130接 β為了釋放第—固持元件i4〇,彈性元件被向彈菁裝 置110之中心擠壓,因此彈簧裝置110能從燈架130被釋放 及因此被拆卸(在所有第二固持元件被釋放的前提下卜此 通常在一便利的單步作業中完成。 較佳地,彈簧裝置11〇由具有高導熱性的一材料例如一 金屬形成。LED模組1〇5被安裝在彈簧裝置11〇内且當電 力驅動時將消散熱至彈簧裝置11〇。在當前實施例中彈 簧裝置110之主體11〗被形成以為了匹配燈架13〇之第一接 收部分136。除了提供彈簧裝置n〇至燈架13〇之一良好的 安裝穩疋性之外,彈簧裝置110與燈架130之介面之匹配在 彈質裝置11〇與第一接收部分136之間(及在被配置在彈簧 140289.doc •12· 201009243 裝置110與燈架130之間的其他介面表面之間)提供一良好 的熱連接。因此’由LED模組產生的熱至少部分經由彈菁 裝置110及燈架130被消散。 在依照本發明之裝配結構200之一實施例中,正如在圖2 . 繪示的,彈簧裝置210被配置成具有一大體上矩形主體 211,其具有一中心部分214及其進一步配置有向上的巴緣 末端部分212、213。彈簧裝置210在被安裝至燈架23〇上 • 時’其配置以中心部分214之底側朝向燈架230定向。一第 二固持部件包括兩個向上的側板215及216,其等被配置在 中’V·*分214之外緣,且此外在此例示性實施例中大體上 垂直於卡心部分214。每個向上的側板215、216分別配置 有一突出固持元件217及21 8。該等突出固持元件217及218 被配置在分別的向上側板215、216之外側。該等向上側板 215、216被彈性的配置及可藉由施加一外力被偏轉。 一第一固持部件120被配置在彈簧裝置21〇之中心部分 • 214之底部。該第一固持部件120包括至少兩個第一固持部 件兀件,每個配置在一中心部分214之分別的外緣。該第 一固持部件120被配置以固持LED模組105。在此例示性實 訑例中,第一固持部件元件係有彈力的且LED模組藉由 LED模組105在適當的位置被安裝。在另一實施例中第 口持邛件元件本身係沒有彈力的,但被配置成在向上側 板215、216被擠壓在一起時打開並影響固持元件使得它們 被打開及因此能接收LED模組105。LED模組105之拆卸很 谷易藉由相同程序被完成。 140289.doc •13- 201009243 燈架230配置有一孔徑135,其在此實施例中具有一大體 上矩形形狀,其中該孔徑135匹配彈簧裝置21〇之中心部分 214。此外,第一接收部分236被配置在該孔徑處。第一接 收部分236包括兩個向上的接收板237及238,其等被配置 在孔徑135之一分別的對側及燈架23〇之—上部上。向上的 接收板23 7及23 8大體上垂直於燈架230。兩個接收孔239及 240,被配置在向上的接收板237、238内。 第一接收部分236進一步被配置成具有兩個向下凸緣子 刀241及242,其等被配置在孔徑135之一分別的對側, 孔徑135之該等側被置於垂直於接收板237、23 8。該等向 下凸緣子部分241、242進一步被配置成當彈簧裝置21〇被 女裝在燈架230上時接收向上的凸緣末端部分212、213。 彈簧裝置210之向上的凸緣末端部分212、213被向上翻起 個角度,該角度至少大體上匹配相應向下凸緣子部分 241、242之角度。因此,不同角度值可在不同實施例中被 選擇,只要彈簧裝置210大體上匹配燈架23 〇之接收部分 236 ° 當將彈簧裝置210安裝至燈架230時,彈簧裝置21〇之中 心部分214被安裝至第一接收部分236,使得彈簧裝置21〇 之侧板215、216被降至平行於接收板237、238之位置,且 固持元件217、21 8在接收板237、238之接收孔239、240内 被接收。側板215、21 6提供第二彈性元件以在固持元件 217、218與接收板237、238之間起作用。彈簧裝置21〇然 後被鎖定到燈架230。為了拆卸彈簧裝置21(),側板215、 140289.doc •14- 201009243 216被相互擠壓然後固持元件217、2職釋放。 在鎖定位置,兩個向下凸緣子部分241、—及向上的凸 緣側部分212、213被擠塵在—起及相互對著產生雙倍彈簧 力。 - ® 3繪“照本發明之裝配結構之例示性實施例之安 . 纟°圖3 a)繪示本發明實施例在安裝前之-截面側視圖。 進一步在圖3 b)中,安裝程序藉由將彈簧裝置21G置於接收 φ 部分236内的合適位置開始。彈簧裝置21。在向上的凸緣側 部分212、213之外緣處的接觸點τρι、τρ2與燈架23〇接 觸。在圖3 C),彈簧裝置21〇然後被向下擠壓至接收部分 236,使得向上側板215、216之突出固持元件217及之^被 推至在向上接收板237、238之接收孔239、24〇内的位置。 彈簧裝置210現在被擠壓至如在圖3 c)繪示的一位置,其中 在彎曲彈簧裝置210之向上的凸緣侧部分212、213及接收 部分236之向下凸緣子部分241、242之外緣時達到接斶點 φ TP3及TP4。因此,在該安裝位置,來自彈簧裝置210之彈 簧力SF1及由接收部分236引起的一相對的彈簧力SF2,導 致彈簧裝置210與燈架230之介面表面被壓在一起,因此保 ^ 證良好的熱接觸。 -在依照本發明之裝配結構400之一實施例中,正如在圖4 繪示的’提供具有一主體411之一彈簧裝置41〇,主體411 具有一第一末端部分412,其被配置成樞軸地連接至—燈 架430。主體411在此例示性實施例中被配置成為矩形之— 彈性板’且其進一步具有一小的曲面。在該主體411之底 140289.doc 201009243 部上,正如在以上描述的一第一固持部件12〇被配置以固 持LED模組1〇5。 一第二固持部件450被配置在主體411之一對置的第二末 端部分。該第二固持部件450係—大體上U形彈性元件 450,其配置成從彈簧裝置之底側突出,及包括一操作部 件441及一鎖定部件442。 此外,裝配結構400包括一燈架43〇,其配置有第一接收 部分436。該第一接收部分436在此實施例中配置成為燈架 430之一通孔。用於安裝彈簧裝置41〇之主體4ιι之柩軸末 端部分412之一第二接收部分437被配置在燈架43〇内。第 二接收部分437在這裏係在燈架43〇内之一通孔,在該通孔 437内g女裝彈簧裝置41〇至燈架43〇上時,彈簧裝置々IQ之 主體411之第一末端部分412被樞軸地配置。 在一替代實施例中,第二接收部分437被配置作為一鉸 鏈托架以接收-配置在彈簧裝置之第—末端部分412之 一欽鏈螺栓。 燈架430在此實施例中進一步配置成在一孔徑135内接收 LED模組。 在一替代實施例中,LED模组被安裝在第一固持部件 120内,其中LED對著彈簧裝置彻之主體4ιι。該彈赞裝 置然後被配置具有一孔徑(未顯示)以傳遞來自LED模組ι〇5 之光。因此彈簧裝置410及相關的LED模組1〇5之安裝可從 一燈之外側完成,而不需要打開燈裝置之外罩。電連接必 須被配置使得當安裝彈簧裂置時,卿模組的燈裝置内的 140289.doc -16- 201009243 電連接同時被連接。 當安裝裝配結構400時’ LED模組1〇5被推至第一固持部 件120。此可藉由接合第一末端部分412與第二接收部分 437在樞軸地連接第一末端部分412與燈架430之前或之後 被完成。彈簧裝置410隨後被朝燈架430折向下,因此LED 模組105通過孔徑135被降低(或正如在以上描述的替代實 施例中,對著燈架430之表面被擠壓)。第一固持部件44〇 ^ 被推向燈架430之第一接收部分436,亦即通過通孔被擠 壓,較佳地該通孔被配置成大體上與u形第一固持部件440 相同的寬度,使得當鎖定部件442被第一接收部分之邊緣 擠壓進去時,第一彈性元件450亦被擠壓進去。或者,鎖 定部件442藉由施加一外力在操作部件441上而被擠壓進 去。 一旦鎖定部件442已經被擠壓通過通孔436,操作邹件 441被釋放且彈簧裝置41〇鎖定在一鎖定狀態。彈簧裝置 春 41 〇之主體411之小曲面提供一第三彈性元件,該彈性元件 引起一彈簧力以對著彈簧裝置41〇及燈架43〇之介面表面起 作用’使得良好的熱接觸被實現。 、在本發明之一實施例中,正如在圖5繪示的,散熱鰭片 • 590被S己置在彈f裝置51〇之主體511上。該散熱稽片別提 供額外的熱消散能力給彈菁纟置5 1〇。正#熟習此項技術 者瞭解的,散熱鰭片590可以很多方式設計。 在本發明之另一實施例中,彈簧裝置61〇被配置成具有 一外部散熱座620,該散熱座配置在彈簧裝置61〇上。在一 140289.doc 17 201009243 例示性實施例t ’正如在圖6繪示的,外部散熱座-被配 置在彈簀裝置61〇之頂部。此外,第一固持部件12〇被配置 在政熱座620上使得當同時接合外部散熱座與彈簧裝置 610時,第一固持部件12〇被利用以固持LED模組1〇5。第 一固持部件120突出穿過彈簧裝置61〇之主體611。1^〇模 組藉由對著固持部件120擠壓而被安裝至彈簧裝置61〇上。 以上,依照本發明之如在附屬請求項中所界定的裝配結 構之實施例已經被描述。此等應該被看作僅僅係非限制實 例。正如具技術者瞭解的,很多修改及替代實施例在本發 明之範圍内係可能的。 應注意的係,為了本申請案之目的,及特別關於附屬請 求項,「包括」一詞不排除其他元件或步驟,「一」一詞不 排除複數個,其本身對熟習此項技術者係顯而易見的。 【圖式簡單說明】 圖1 a)係依照本發明的一裝配結構之一實施例在安裝前 之一透視圖,b)則係依照本發明的該裝配結構之一實施例 在安裝後之一透視仰視圖; 圖2係依照本發明之一裝配結構之一實施例之一透視 圖; 圖3 a)至d)繪示依照本發明之安裝—led模組至一外側主 體上的一種方法之一實施例之原理; 圖4a)及b)係依照本發明之一裝配結構之一實施例之截面 側視圖; 圖5係依照本發明之一裝配結構之一實施例之一彈簧裝 140289.doc -18- 201009243 置之一透視圖; 圖6係依照本發明之一裝配結構之一實施例之一彈簧裝 置之一透視圖。 【主要元件符號說明】 100 裝配結構 105 LED模組 110 彈簧裝置 111 主體Further, when the second medical member 150 is actuated by applying a force to the center of the elastic device, the second holding member is just released from the mounting position. That is, when, for example, the second holding member (10) is disposed on the first receiving portion of the moon 136, the second elastic member 15 provides a force to act between the second holding member 140 and the lamp holder 130. The spring device 110 is coupled to the lamp holder 130. In order to release the first holding member i4, the elastic member is pressed toward the center of the elastic device 110, so that the spring device 110 can be released from the lamp holder 130 and thus disassembled (at all The second holding member is normally released in a convenient single-step operation. Preferably, the spring device 11 is formed of a material having high thermal conductivity such as a metal. The LED module 1〇5 is mounted. In the spring device 11A and when electrically driven, heat is dissipated to the spring device 11A. In the present embodiment the body 11 of the spring device 110 is formed to match the first receiving portion 136 of the lamp holder 13〇. In addition to the good mounting stability of the spring device n〇 to the lamp holder 13〇, the interface between the spring device 110 and the lamp holder 130 is matched between the elastic device 11〇 and the first receiving portion 136 (and is configured In the spring 140289.doc 12· 201009243 provides a good thermal connection between the device 110 and the other interface surfaces between the lamp holders 130. Thus the heat generated by the LED modules is at least partially dissipated via the spheroidal device 110 and the lamp holder 130. In one embodiment of the assembly structure 200 of the present invention, as illustrated in Figure 2, the spring device 210 is configured to have a generally rectangular body 211 having a central portion 214 and further configured with an upward rim The end portions 212, 213. The spring device 210 is configured to be oriented with the bottom side of the central portion 214 toward the light fixture 230 when mounted to the light frame 23 。. A second holding member includes two upward side plates 215 and 216 And the like are disposed at the outer edge of the middle 'V·* minute 214, and further, in this exemplary embodiment, are substantially perpendicular to the card core portion 214. Each of the upward side plates 215, 216 is respectively provided with a protruding holding member 217. And the protruding retaining members 217 and 218 are disposed on the outer sides of the respective upper side plates 215, 216. The upper side plates 215, 216 are elastically disposed and can be deflected by applying an external force. The member 120 is disposed at the bottom of the central portion 214 of the spring device 21. The first retaining member 120 includes at least two first retaining member members, each disposed at a respective outer edge of the central portion 214. A holding component 120 is configured to hold the LED module 105. In this exemplary embodiment, the first holding component is resilient and the LED module is mounted in place by the LED module 105. In one embodiment, the first jaw members are inherently non-elastic, but are configured to open and affect the retaining members such that they are opened and thus receive the LED module 105 when the upper side panels 215, 216 are squeezed together. The disassembly of the LED module 105 is very easy to accomplish by the same procedure. 140289.doc • 13- 201009243 The light stand 230 is configured with an aperture 135, which in this embodiment has a generally rectangular shape, wherein the aperture 135 matches the central portion 214 of the spring device 21〇. Further, the first receiving portion 236 is disposed at the aperture. The first receiving portion 236 includes two upward receiving plates 237 and 238 which are disposed on opposite sides of one of the apertures 135 and on the upper portion of the lamp holder 23''. The upward receiving plates 23 7 and 23 8 are substantially perpendicular to the lamp holder 230. Two receiving holes 239 and 240 are disposed in the upward receiving plates 237, 238. The first receiving portion 236 is further configured to have two downward flange sub-knifes 241 and 242 that are disposed on opposite sides of one of the apertures 135, the sides of the aperture 135 being placed perpendicular to the receiving plate 237 23 8 The downward flange sub-portions 241, 242 are further configured to receive the upward flange end portions 212, 213 when the spring means 21 are worn on the lamp holder 230. The upward flange end portions 212, 213 of the spring means 210 are angled upwardly which at least substantially match the angle of the respective downward flange sub-portions 241, 242. Thus, different angle values can be selected in different embodiments as long as the spring device 210 substantially matches the receiving portion 236 of the light fixture 23 °. When the spring device 210 is mounted to the light fixture 230, the central portion 214 of the spring device 21 〇 Mounted to the first receiving portion 236 such that the side plates 215, 216 of the spring means 21 are lowered to a position parallel to the receiving plates 237, 238, and the holding members 217, 21 8 are received in the receiving holes 239 of the receiving plates 237, 238. , 240 is received. The side panels 215, 21 6 provide a second resilient member to function between the retaining members 217, 218 and the receiving plates 237, 238. The spring device 21 is then locked to the lamp holder 230. In order to disassemble the spring device 21 (), the side plates 215, 140289.doc • 14 - 201009243 216 are pressed against each other and then the holding members 217, 2 are released. In the locked position, the two downward flange sub-portions 241, - and the upward flange side portions 212, 213 are squeezed against each other and produce double spring force against each other. - ® 3 depicts "An exemplary embodiment of the assembled structure of the present invention. Figure 3 a) shows a cross-sectional side view of the embodiment of the invention prior to installation. Further in Figure 3 b), the installation procedure The spring device 21 is started by placing the spring device 21G at a suitable position within the receiving φ portion 236. The contact points τρι, τρ2 at the outer edges of the upward flange side portions 212, 213 are in contact with the lamp holder 23 。. 3), the spring means 21 is then pressed down to the receiving portion 236 such that the protruding retaining members 217 of the upper side plates 215, 216 are pushed to the receiving holes 239, 24 of the upward receiving plates 237, 238. The position inside the crucible. The spring device 210 is now squeezed to a position as shown in Figure 3 c), wherein the flange side portions 212, 213 and the downward flange of the receiving portion 236 in the upward direction of the curved spring device 210 The outer edges of the sub-portions 241, 242 reach the contact points φ TP3 and TP4. Therefore, in the mounting position, the spring force SF1 from the spring device 210 and a relative spring force SF2 caused by the receiving portion 236 cause the spring device 210 and the interface surface of the lamp holder 230 are pressed together because A good thermal contact is ensured. - In one embodiment of the assembly structure 400 according to the present invention, as shown in Figure 4, 'providing a spring device 41 having a body 411, the body 411 has a first end Portion 412, which is configured to be pivotally coupled to the light fixture 430. The body 411 is configured in this exemplary embodiment as a rectangular-elastic plate and further has a small curved surface. At the bottom of the body 411 140289.doc 201009243 In the above, a first holding member 12A as described above is configured to hold the LED module 1〇5. A second holding member 450 is disposed at an opposite second end portion of the body 411 The second holding member 450 is a substantially U-shaped elastic member 450 configured to protrude from the bottom side of the spring device, and includes an operating member 441 and a locking member 442. Further, the mounting structure 400 includes a lamp holder 43. That is, it is provided with a first receiving portion 436. The first receiving portion 436 is configured as a through hole of the lamp holder 430 in this embodiment. One of the shaft end portions 412 for mounting the spring device 41〇 Second The portion 437 is disposed in the lamp holder 43. The second receiving portion 437 is here a through hole in the lamp holder 43, in which the female spring device 41 is attached to the lamp holder 43. The first end portion 412 of the body 411 of the spring device 々IQ is pivotally disposed. In an alternate embodiment, the second receiving portion 437 is configured as a hinge bracket for receiving-disposing at the first end portion of the spring device One of the chin chain bolts 412. The light frame 430 is further configured in this embodiment to receive the LED module within an aperture 135. In an alternate embodiment, the LED module is mounted within the first retaining member 120 with the LEDs facing the spring assembly and the body 4ι. The projectile device is then configured with an aperture (not shown) to deliver light from the LED module 〇5. Thus the mounting of the spring means 410 and the associated LED module 1〇5 can be done from the outside of a lamp without the need to open the cover of the lamp unit. The electrical connections must be configured such that when the mounting spring is split, the electrical connections of the 140289.doc -16-201009243 in the lamp unit of the module are simultaneously connected. When the mounting structure 400 is mounted, the LED module 1〇5 is pushed to the first holding member 120. This can be accomplished by engaging the first end portion 412 with the second receiving portion 437 before or after pivotally connecting the first end portion 412 to the light fixture 430. The spring means 410 is then folded down towards the base 430 so that the LED module 105 is lowered through the aperture 135 (or as opposed to the surface of the base 430 in the alternative embodiment described above). The first holding member 44 is pushed toward the first receiving portion 436 of the lamp holder 430, that is, is extruded through the through hole, preferably the through hole is configured to be substantially the same as the first u-shaped first holding member 440. The width is such that when the locking member 442 is pressed in by the edge of the first receiving portion, the first elastic member 450 is also squeezed in. Alternatively, the locking member 442 is squeezed in by applying an external force on the operating member 441. Once the locking member 442 has been pressed through the through hole 436, the operating head 441 is released and the spring device 41 is locked in a locked state. The small curved surface of the main body 411 of the spring device spring 41 provides a third elastic member which causes a spring force to act against the surface of the spring device 41 and the interface of the lamp holder 43' so that good thermal contact is achieved. . In one embodiment of the present invention, as shown in FIG. 5, the heat sink fins 590 are placed on the body 511 of the bullet device 51. The heat-dissipating document does not provide additional heat dissipation capability to the elastic crystal set. As is familiar to those skilled in the art, the heat sink fins 590 can be designed in many ways. In another embodiment of the invention, the spring means 61 is configured to have an external heat sink 620 disposed on the spring means 61. At 140289.doc 17 201009243 The exemplary embodiment t' is as shown in Figure 6, the external heat sink - is disposed on top of the magazine device 61. Further, the first holding member 12 is disposed on the political seat 620 such that when the external heat sink and the spring device 610 are simultaneously engaged, the first holding member 12 is utilized to hold the LED module 1〇5. The first holding member 120 protrudes through the body 611 of the spring device 61. The die group is attached to the spring device 61 by being pressed against the holding member 120. Above, embodiments of the assembly structure as defined in the appended claims have been described in accordance with the present invention. These should be considered as merely non-limiting examples. Many modifications and alternative embodiments are possible within the scope of the invention, as appreciated by those skilled in the art. It should be noted that for the purposes of this application, and particularly with respect to ancillary claims, the word "comprising" does not exclude other elements or steps, and the term "a" does not exclude the plural, which is Obvious. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 a) is a perspective view of an embodiment of an assembly structure according to the present invention before installation, and b) is one of the embodiments of the assembly structure according to the present invention after installation. Figure 2 is a perspective view of one embodiment of an assembly structure in accordance with the present invention; Figures 3 a) through d) illustrate a method of mounting a LED module to an outer body in accordance with the present invention. Figure 4a) and b) are cross-sectional side views of an embodiment of an assembly structure in accordance with the present invention; Figure 5 is a spring assembly 140289.doc in accordance with one embodiment of an assembly structure in accordance with the present invention. -18- 201009243 A perspective view; Figure 6 is a perspective view of one of the spring devices in accordance with one embodiment of an assembly structure in accordance with the present invention. [Main component symbol description] 100 Assembly structure 105 LED module 110 Spring device 111 Main body
120 第一固持部件 125 第一彈性元件 130 燈架 135 光孔徑 136 接收部分 140 第二固持部件 150 彈性元件 200 裝配結構 210 彈簧裝置 211 主體 212 向上的凸緣末端部分 213 向上的凸緣末端部分 214 中心部分 215 向上的侧板 216 向上的側板 217 突出固持元件 140289.doc -19- 201009243 218 突出固持元件 230 燈架 236 接收部分 237 向上的接收板 238 向上的接收板 239 接收孔 240 接收孔 241 向下凸緣子部分 242 向下凸緣子部分 400 裝配結構 410 彈簧裝置 411 主體 412 第一末端部分 430 燈架 436 接收部分 437 第二接收部分 440 第一固持部件 441 操作部件 442 鎖定部件 450 第二固持部件 510 彈簧裝置 511 主體 590 散熱鰭片 610 彈簧裝置 140289.doc -20- 201009243 611 620 主體 外部散熱座120 first holding member 125 first elastic member 130 lamp holder 135 light aperture 136 receiving portion 140 second holding member 150 elastic member 200 mounting structure 210 spring device 211 body 212 upward flange end portion 213 upward flange end portion 214 Center portion 215 upward side plate 216 upward side plate 217 protruding holding member 140289.doc -19- 201009243 218 protruding holding member 230 lamp holder 236 receiving portion 237 upward receiving plate 238 upward receiving plate 239 receiving hole 240 receiving hole 241 direction Lower flange sub-portion 242 Down flange sub-portion 400 Assembly structure 410 Spring device 411 Main body 412 First end portion 430 Light holder 436 Receiving portion 437 Second receiving portion 440 First holding member 441 Operating member 442 Locking member 450 Second Holding member 510 Spring device 511 Main body 590 Heat sink fin 610 Spring device 140289.doc -20- 201009243 611 620 Main body heat sink
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