M290549 八、新型說明: 【新型所屬之技術領域】 本創作係關⑥#檯燈結構,特別是指一種透過散熱殼體及 散熱模組將發光燈組產生之熱能,迅速排放至殼體外,以延長發 光燈組使用壽命之檯燈結構。 【先前技術】 按&燈最主要功用係為補強室内光線較弱區域,舉凡書 桌、辦公桌、書房…等處,使得使用者於閱讀或進行其他工作時, 可透過檯燈光線之輔助,而得以在明亮之環境下進行閱讀或從事 其他工作,以避免視力之退化;因此,檯燈之實用性係無庸置疑。 然而’松燈雖實用但仍有以下之缺失· 丄·習用檯燈所採之燈具大都採用白熱燈、水銀燈、鈉氣燈等, 其照明效率較差,導致耗電量相對增加。 2.習用照明燈具中並未設置任何散熱裝置,致使燈體產生之 高熱能無法適時散熱’造成燈體容易燒毁,進而導致燈體之使用 壽命降低。 由此可見,上述習用物品仍有諸多缺失,實非一良善之設計 者,而亟待加以改良。 本案創作人鑑於上述習用檯燈所衍生的各項缺點,乃亟思加 以改良創新,並經多年苦心孤t旨潛心研究後,終於成功研發 本件檯燈結構。 【新型内容】 本創作之目的即在於提供一種透過散熱模組吸收發光燈組 所產生之熱能,並將該熱能傳導至散熱殼體中,藉由散熱殼體與 外界進打熱交換,以達到散熱迅速目的之檯燈結構。 本創作之次一目的係在於提供一種採用發光二極體為發光 源,使其具有高亮度' 高省電及高使用壽命等特點之檯燈結構。 M290549 本創作之另一目的係在於提供一種具有結構簡單、組裝方便 及高實用性等諸多優點之檯燈結構。 可達成上述新型目的之檯燈結構,包括有一散熱殼體、一散 熱模組、一發光燈組及一控制電路;其中,該散熱模組、發光燈 組及控制電路係設置於散熱殼體中;而該散熱殼體係由高導熱材 質所製作而成,其接近頂端之内表面上設置有一視窗;該發光燈 組係結合於散熱模組上,並與散熱殼體之視窗相對應;該散熱模 組係與散熱殼體相接觸;該控制電路係與發光燈組相連接,使控 制電路可驅動發光燈組產生光源,並於控制電路上設置有一開 籲關,該開關係突露於散熱殼體外,以作為發光燈組啟閉之控制; 當發光燈組產生光源時,其所產生之光源可經由視窗射出,以提 供所需之照明,而發光燈組所產生之熱能會經由散熱模組傳送至 散熱殼體,再透過散熱殼體與外界進行熱交換,而達到迅速散熱 之目的。 【實施方式】 請參閱圖一至圖三所示,係本創作所提供之檯燈結構,主要 包括有: 一散熱殼體1,該散熱殼體1係由高導熱材質所製成,其可 為任一造型,並於散熱殼體内設置有一容置空間,其接近頂端之 内表面上設置有一視窗11,並於其上設置有一開口 13及一孔洞 12 ; 一散熱模組2,該散熱模組2包含一導熱基板21、至少一導 熱管22及至少一散熱鰭片23;其中,係透過導熱管22將導熱基 板21及散熱鰭片23結合成一體;係將散熱模組2結合定位於散 熱殼體1之容置空間中,使得散熱模組2之導熱基板21與散熱殼 體1之視窗11相對應,而散熱鰭片23則與散熱殼體1之内壁面 相貼合接觸; 一發光燈組3,該發光燈組3係結合於散熱模組2之導熱基 M290549 板21上,使得發光燈組3與散熱殼體1之視窗η相對應,導致 發光燈組3產生之光源可經由視窗11射出,以提供所需之照明 光線;該發光燈組3可為發光二極體(LED)或其他具有高亮度、 高省電及高使用壽命之燈體; 一控制電路4 ’该控制電路4至少包含一開關41及一電源輸 入孔座42 ;係將控制電路4結合定位於散熱殼體丨中,使其上之 開關41經由散熱殼體1之開孔13突露出散熱殼體1外,而電源 輸入孔座42則與散熱殼體1之孔洞12相對應,致使電源線可經 由散熱殼體1之孔洞12與控制電路4之電源輸入孔座42相連接, 修以導入電源至控制電路4中’並將控制電路4與發光燈組3相連 接’使控制電路4可驅動發光燈組3產生光源,而控制電路4上 之開關41則係作為發光燈組3啟閉之控制。 再請參閱圖四所示,係本創作之實施示意圖,當電源經由控 制電路4之電源輸入孔座42導入控制電路4時,即可透過開關 41控制發光燈組3之開啟及關閉,若發光燈組3產生光源時,該 光源係會經由散熱殼體1之視窗11射出,以提供所需之照明, 而發光燈組3所產生之熱能則會經由散熱模組2之導熱基板21 所接收,經傳送至導熱管22及散熱鰭片23,最後,經由散熱鰭 鲁片23將熱能傳導至散熱殼體1上,以透過散熱殼體1與外界進行 熱交換,而達到迅速散熱之目的,進而延長發光燈組3之使用壽 命。 另外’為增加散熱之速度’亦可於散熱模組2上增設至少一 1 組以上之散熱風扇(圖中未標示),並於散熱殼體1上設置與散 熱風扇相對應之對流口,除透過散熱殼體1散熱外,並可透過散 熱風扇將熱能經由散熱殼體1之對流口排出散熱殼體1外,而達 到迅速散熱之功效。 本創作所提供之檯燈結構,與其他習用技術相互比較時,更 具有下列之優點: M290549 1.本創作係透過一散熱模組吸收發光燈組所產生之熱能,並 將該熱能傳導至散熱殼體中,藉由散熱殼體與外界進行熱交換, 以達到散熱迅速之目的。 2·本創作係採用發光二極體為發光源,使其具有高亮度、高 省電及高使用壽命等特點。 3·本創作係具有結構簡單、組裝方便及高實用性等諸多優點。 上列詳細說明係針對本創作之一可行實施例之具體說明,惟 該實施例並非用以限制本創作之專利範圍,凡未脫離本創作技藝 精神所為之等效實施或變更,均應包含於本案之專利範圍中。 綜上所述’本㈣但在空間型態上確屬創新,並能較習用物 =增進上述多項功效’應已充分符合新穎性及進步性之法定新型 :利要件’妥依法提出申請’懇"局核准 案,以勵創作,至感德便。 J T ^ 【圖式簡單說明】 圖一為本創作檯燈結構之立體示意圖; 圖二為本創作檯燈結構之内側剖面示意圖; 圖三為本創作檯燈結構之外侧剖面示意圖;以及 圖四為本創作檯燈結構之實施示意圖。, 【主要元件符號說明】 〜 1 散熱殼體 11 視窗 12 孔洞 13 開口 2 散熱模組 21 導熱基板 22 導熱管 23 散熱鰭片 M290549 3發光燈組 4控制電路 41開關 42電源輸入孔座M290549 VIII. New Description: [New Technology Field] This creation is related to the 6# lamp structure, especially the heat energy generated by the light-emitting lamp group through the heat-dissipating case and the heat-dissipating module, which is quickly discharged to the outside of the casing to extend The lamp structure of the life of the luminous lamp group. [Prior Art] The main function of the & lamp is to reinforce the weaker areas of the room, such as desks, desks, study rooms, etc., so that when users read or perform other work, they can be assisted by the light lines. The ability to read or do other work in a bright environment to avoid deterioration of vision; therefore, the practicality of the desk lamp is unquestionable. However, although the pine lamps are practical, they still have the following shortcomings. 丄 The lamps used in the conventional desk lamps mostly use white heat lamps, mercury lamps, sodium lamps, etc., and their lighting efficiency is poor, resulting in a relatively high power consumption. 2. There is no heat sink installed in the conventional lighting fixture, so that the high thermal energy generated by the lamp body cannot be dissipated in a timely manner, which causes the lamp body to be easily burned, which leads to a decrease in the service life of the lamp body. It can be seen that there are still many shortcomings in the above-mentioned items, which is not a good designer, but needs to be improved. In view of the shortcomings derived from the above-mentioned conventional desk lamps, the creators of this case have been able to improve and innovate, and after years of painstaking research, they finally succeeded in developing this table lamp structure. [New content] The purpose of this creation is to provide a heat absorption device that absorbs the heat generated by the light-emitting lamp group and conducts the heat energy into the heat-dissipating casing, and heat exchange is performed between the heat-dissipating casing and the outside to achieve A table lamp structure that dissipates heat quickly. The second purpose of this creation is to provide a lamp structure that uses a light-emitting diode as a light source to have high brightness, high power saving and high service life. M290549 Another object of the present invention is to provide a table lamp structure having many advantages such as simple structure, convenient assembly, and high practicability. The lamp structure for achieving the above-mentioned novel purpose includes a heat dissipation housing, a heat dissipation module, an illumination lamp group and a control circuit; wherein the heat dissipation module, the illumination lamp group and the control circuit are disposed in the heat dissipation housing; The heat dissipating casing is made of a high thermal conductive material, and a window is disposed on the inner surface of the top end; the illuminating lamp group is coupled to the heat dissipating module and corresponds to the window of the heat dissipating casing; The group is in contact with the heat dissipation housing; the control circuit is connected to the light-emitting lamp group, so that the control circuit can drive the light-emitting lamp group to generate the light source, and an opening and closing is provided on the control circuit, and the opening relationship is exposed to the heat-dissipating shell In vitro, as a control for opening and closing of the light-emitting lamp group; when the light-emitting lamp group generates a light source, the light source generated by the light-emitting lamp group can be emitted through the window to provide the required illumination, and the heat generated by the light-emitting lamp group passes through the heat-dissipating module. It is sent to the heat-dissipating case, and then exchanges heat with the outside through the heat-dissipating case to achieve rapid heat dissipation. [Embodiment] Referring to FIG. 1 to FIG. 3, the lamp structure provided by the present invention mainly includes: a heat dissipation housing 1 which is made of a high thermal conductive material, which can be used as a heat dissipating module is disposed in the heat dissipating housing, and a window 11 is disposed on the inner surface of the top end, and an opening 13 and a hole 12 are disposed on the heat dissipating module; 2, comprising a heat-conducting substrate 21, at least one heat-conducting tube 22 and at least one heat-dissipating fin 23; wherein the heat-conducting substrate 21 and the heat-dissipating fins 23 are integrated into one body through the heat-conducting tube 22; In the accommodating space of the housing 1, the heat-conducting substrate 21 of the heat-dissipating module 2 corresponds to the window 11 of the heat-dissipating housing 1, and the heat-dissipating fins 23 are in close contact with the inner wall surface of the heat-dissipating housing 1; In the group 3, the light-emitting lamp group 3 is coupled to the heat-conducting base M290549 plate 21 of the heat-dissipating module 2, so that the light-emitting lamp group 3 corresponds to the window η of the heat-dissipating casing 1, so that the light source generated by the light-emitting lamp group 3 can pass through the window. 11 shot to provide the required lighting The light-emitting lamp group 3 can be a light-emitting diode (LED) or other lamp body with high brightness, high power saving and high service life; a control circuit 4' the control circuit 4 includes at least a switch 41 and a power source The input socket 42 is configured to position the control circuit 4 in the heat dissipation housing , so that the switch 41 thereon protrudes out of the heat dissipation housing 1 through the opening 13 of the heat dissipation housing 1, and the power input socket 42 is The hole 12 of the heat dissipation housing 1 corresponds to the power supply line, and the power supply line can be connected to the power input socket 42 of the control circuit 4 via the hole 12 of the heat dissipation housing 1 to be introduced into the control circuit 4 and the control circuit 4 is The connection with the illuminating lamp group 3 enables the control circuit 4 to drive the illuminating lamp group 3 to generate a light source, and the switch 41 on the control circuit 4 serves as a control for opening and closing the illuminating lamp group 3. Referring to FIG. 4 again, it is a schematic diagram of the implementation of the present invention. When the power is introduced into the control circuit 4 via the power input socket 42 of the control circuit 4, the switch 41 can be used to control the opening and closing of the light-emitting group 3, if the light is turned on. When the light source 3 generates a light source, the light source is emitted through the window 11 of the heat dissipation housing 1 to provide the required illumination, and the heat generated by the light source group 3 is received by the heat conductive substrate 21 of the heat dissipation module 2. After being transferred to the heat pipe 22 and the heat dissipation fins 23, finally, the heat energy is transmitted to the heat dissipation case 1 via the heat dissipation fins 23 to exchange heat with the outside through the heat dissipation case 1 to achieve rapid heat dissipation. Further, the service life of the light-emitting lamp group 3 is extended. In addition, in order to increase the speed of heat dissipation, at least one or more sets of cooling fans (not shown) may be added to the heat dissipation module 2, and a convection opening corresponding to the heat dissipation fan is disposed on the heat dissipation housing 1, except The heat dissipating through the heat dissipating casing 1 can discharge heat energy through the convection port of the heat dissipating casing 1 through the convection port of the heat dissipating casing 1 to achieve rapid heat dissipation. The lamp structure provided by this creation has the following advantages when compared with other conventional technologies: M290549 1. This creation system absorbs the heat generated by the light-emitting lamp group through a heat-dissipating module, and transmits the heat energy to the heat-dissipating shell. In the body, heat exchange is performed with the outside through the heat dissipation housing to achieve rapid heat dissipation. 2. This creation department uses the light-emitting diode as the light source, which makes it have high brightness, high power saving and high service life. 3. The creative department has many advantages such as simple structure, convenient assembly and high practicability. The detailed description above is a detailed description of one of the possible embodiments of the present invention, and the embodiment is not intended to limit the scope of the patents, and the equivalent implementations or modifications that are not included in the spirit of the present invention should be included in The patent scope of this case. To sum up the above (4), but it is innovative in the space type, and can be used in comparison with the conventional use = to enhance the above-mentioned multiple functions. 'The statutory new type that should fully comply with the novelty and the progressiveness: the essentials 'to apply properly according to the law'恳" Bureau approved the case, to encourage creation, to the sense of virtue. JT ^ [Simple diagram of the diagram] Figure 1 is a three-dimensional schematic diagram of the structure of the lamp for creation; Figure 2 is a schematic cross-sectional view of the inside of the lamp structure of the creation; Figure 3 is a schematic cross-sectional view of the exterior of the lamp for the creation of the table lamp; A schematic diagram of the implementation of the structure. , [Main component symbol description] ~ 1 Heat dissipation housing 11 Window 12 Hole 13 Opening 2 Heat dissipation module 21 Thermal substrate 22 Heat pipe 23 Heat sink fin M290549 3 Light lamp group 4 Control circuit 41 Switch 42 Power input socket