M373607 - 五、新型說明: 【新型所屬之技術領域】 本創作係有關一種y調光之光源裝置,尤指一種具有 調光模組來調整切換不同發光狀態之光源裝置。 【先前技術】 近年來,隨著國内經濟的高度發展,人們對生活便利 ' 與生品質的要求日益提高,及工業發展不斷進步,使得電 φ 燈泡的應用不再僅限於照明,更可以藉由調整電燈泡亮度 以對室内空間做明暗修飾,藉以達到情境之配合、調整及 美化的功效。 目前已有的一般電燈泡亮度的調整裝置,請參閱第一 圖所示,係為習知電燈泡亮度的調整裝置之實施示意圖 ·, 一,如第一圖所示,其主要係利用一開關1的按壓動作以 驅動習用之控制裝置而達成調整一般電燈泡21、22、23、 24與25的亮度,然此類電燈泡亮度調整方式因其為控制 φ 電燈泡工作於亮之狀態的個數多寡,以改變室内光線之明 ' 暗程度,故當僅少數幾個電燈泡亮時,光線會只分佈在室 • 内某些角落,導致照明有不均勻之虞;另一方面,因固定 某幾個電燈泡使用次數較頻繁,長期下來因使用折舊的關 係,相較其他電燈泡之亮度將會明顯不足,若將較常被使 用的電燈泡換新,則亮度又會比其他電燈泡之亮度強,不 僅會有照明光線分佈不均勻之缺失,亦容易造成視覺上的 不平衡而有影響情境之疑虞。 M373607 【新型内容】 有鑑於此’本創作之主要目的即在提供-種具有 模組來調整切換不同發光狀態之光源裝置。 為達上揭目的,本倉i作之光源裝置至少包含有: 源、切換開關、控制模組以及調光模組,該控制模组連接 光源與切換開關’該調光模組係與該控制模组並聯連接, •該調光模組設有第一偵測電路及切換模式電路,該電壓偵 •測電路偵測由切換開關所控制之輸入電壓,並將該偵測訊 φ 號傳送至切換模式電路,該切換模式電路依據該偵測訊號 發出不同之調光訊號至控制模組,而使該控制模組依據該 調光訊號來調整切換光源之發光狀態,令整體光源裝置得 以形成多段式切換不同亮度之發光狀態。 【實施方式】 本創作之特點,可參閱本案圖式及實施例之詳細說明 而獲得清楚地瞭解。 本創作「可調光之光源裝置」,如第二圖所示,該光 源裝置3至少包含有: 光源31,該光源31可設有一個或以上之發光二極體; 一切換開關32,接收輸入電壓並用以切換光源之發 光狀態; 一控制模組33,該控制模組33連接光源31與切換 開關32 ’該控制模組33設有濾波電路331、電壓調整電 路332及定電流電路333,可接收輸入電壓並將該輸入電 壓調整為光源31所需輸出電壓及輸出電流,而由該定電 4 M373607 流電路333傳送至光源31使其發光; 調光模組34,該調光模組34係與該控制模組32並 聯連接,該調光模組34設有第一偵測電路341及切換模 ' 式電路342,該第一偵測電路341偵測由切換開關32所 控制之輸入電壓,並將該偵測訊號傳送至切換模式電路 342,該切換模式電路342依據該偵測訊號發出不同之調 光訊號至控制模組之定電流電路333 ; 一變壓器35,係設於切換開關32與控制模組33之 間。 * 整體實施時,當使用者將切換開關32打開為第一發 光狀態時,市電電源則由切換開關傳送至變壓器35進行 交流電轉換為直流電,再將該直流電輸入電壓傳送至控制 模組33以及調光模組34,此時該切換開關32係正常開 啟,故變壓器35傳送至控制模組33以及調光模組34之 輸入電壓大小並無改變,則該輸入電壓依序經由濾波電路 331、電壓調整電路332及定電流電路333,最後輸出定 電壓及定電流以點亮光源31,此時光源亮度最亮。 鲁· 而當使用者將切換開關32打開後關閉再打開為第二 發光狀態時,該變壓器35在關閉再打開的瞬間内,傳送 至控制模組33以及調光模組34之輸入電壓變小(例如原 輸入電壓之75 % ),則該輸入電壓依序經由滤波電路 331、電壓調整電路332及定電流電路333,且同時該調 光模組之第一偵測電路341則偵測到該輸入電壓變小 時,則將該偵測訊號傳送至切換模式電路342,該切換模 式電路343依據該偵測訊號發出不同之調光訊號(例如可 利用脈衝寬度調變信號)至控制模組之定電流電路333, M373607 使該定電流電路333得以依據該調光訊號調整輸出電壓 值及電流,並點亮光源31,此時光源亮度較低。 若當使用者重覆上一動作,亦即將切換開關32依序 ' 進行打開、關閉、打開、關閉再打開為第三發光狀態,此 時該變壓器35在最後關閉再打開的瞬間内,傳送至控制 模組33以及調光模組34之輸入電壓變更小(例如原輸入 電壓之50%),而調光步驟則如上所述,而使光源亮度更 低;當然,可依所需來調整光源具有多少種不同之發光狀 態。 * 再者,該光源裝置3進一步設有不斷電模組36,如 第三圖所示,該不斷電模組36設有第二偵測電路361以 及儲能裝置362,該第二偵測電路361係用以偵測輸入電 壓,該儲能裝置362之輸入端係與電壓調整電路332連 接,而該儲能裝置362之輸出端連接至定電流電路333之 輸入端;正常供電之下,該控制模組之電壓調整電路332 會持續對該儲能裝置362進行充電或持續至充飽電為 止,若該第二偵測電路361偵測市電断電(亦即無輸入電 ·., 壓)時,該儲能裝置362則可提供電源至定電流電路333, 以點亮光源31。 另外,如第四圖所示為本創作控制模組之另一實施 例,該控制模組4至少包含有: 一整流電路335,該整流電路335係用以接受輸入電 壓,且該輸入電壓係為直流5〜24伏特; 一濾波電路331,係與該整流電路335連接,以接收 整流後之輸入電壓; 一第三偵測電路336,該第三偵測電路336 —端與電 6 M373607 壓調整電路332連接,另端則與光源31連接,用以偵測 光源31中各發光二極體之數量及實際需求電壓,用以產 生一實際需求的電壓值; ' 一電壓調整電路332,該電壓調整電路332 —端與第 三偵測電路336連接,另端則與濾波電路331連接,接收 輸入電壓並依照實際需求之電壓值調整輸出電壓,而該電 壓調整電路可依照輸入電壓與實際需求電壓之差異來選 擇使用降壓電路或升壓電路,亦即若輸入電壓低於實際需 求電壓該電壓調整電路可以為升壓電路,而當輸入電壓高 * 於實際需求電壓該電壓調整電路可以為降壓電路; 一定電流電路333,係與該電壓調整電路332連接, 依照電壓調整電路332之輸出電壓來調整輸出電流,該定 電流電路333則與光源31連接。 該控制模組可接收之輸入電壓為5〜24伏特之直流 電,依序經由整流電路335以及濾波電路331進行整流及 濾波作用,而該第三偵測電路336則將偵測後發光二極體 實際需求之電壓值傳送至電壓調整電路332,該電壓調整 電路332並接收經整流及濾波後之輸入電壓,並依照實際 需求之電壓值調整輸出電壓,最後由該定電流電路333依 照電壓調整電路332之輸出電壓來調整輸出電流,並將該 輸出電壓及輸出電流傳送至光源31而令其發光;當然, 光源之各發光二極體可以為串聯或並聯連接,若輸入電壓 低於實際需求電壓該電壓調整電路可以為升壓電路,而當 輸入電壓高於實際需求電壓該電壓調整電路可以為降壓 電路。 當然,第四圖所示控制模組之另一實施例中亦可進一 7 M373607 步連接有不斷電模組36,第五圖所示。 綜上所述,本創作提供杯燈一較佳可行之控制裝置, 爰依法提呈新型專利之申請;本創作之技術内容及技術特 點e;揭示如上,然而熟悉本項技術之人'士仍可能基於本創 作之揭示而作各種不背離本案創作精神之替換及修飾。因 此,本創作之保護範圍應不限於實施例所揭示者,而應包 括各種不背離本創作之替換及修飾,並為以下之申請專利 範圍所涵蓋。 【圖式簡單說明】 第一圖係為習有省電燈泡亮度的調整裝置之結構示意圖。 第二圖係為本創作中光源裝置第一實施例之結構示意圖。 第三圖係為本創作中光源裝置第二實施例之結構示意圖。 第四圖係為本創作中光源裝置第三實施例之結構示意圖。 第五圖係為本創作中光源裝置第四實施例之結構示意圖。 Φ 【主要元件符號說明】 開關1 電燈泡21、22、23、24、25 光源裝置3 光源31 切換開關32 控制模組33 濾波電路331 電壓調整電路332 M373607 定電流電路333 整流電路335 第三偵測電路336 調光’模組34 偵測電路341 切換模式電路342 變壓器35 不斷電模組36 第二偵測電路361 儲能裝置362M373607 - V. New Description: [New Technology Field] This creation is about a y-dimming light source device, especially a light source device with a dimming module to adjust different lighting states. [Prior Art] In recent years, with the rapid development of the domestic economy, people's demands for convenience and quality have been increasing, and industrial development has continued to advance, making the application of electric φ bulbs no longer limited to lighting, but also borrowing By adjusting the brightness of the light bulb to make a dark and dark modification of the indoor space, the effect of coordination, adjustment and beautification of the situation can be achieved. The conventional adjustment device for adjusting the brightness of a conventional light bulb, as shown in the first figure, is a schematic diagram of the implementation of the adjustment device for the brightness of the conventional light bulb. First, as shown in the first figure, it mainly utilizes a switch 1 The pressing action is to drive the conventional control device to adjust the brightness of the general light bulbs 21, 22, 23, 24 and 25, and the brightness adjustment mode of the light bulb is changed according to the number of the light bulbs operating in the bright state. The light in the room is dark, so when only a few light bulbs are lit, the light will only be distributed in some corners of the room, causing uneven illumination; on the other hand, the number of times the light bulbs are fixed More frequent, long-term use of depreciation, compared to the brightness of other light bulbs will be significantly insufficient, if you replace the more commonly used light bulbs, the brightness will be stronger than other light bulbs, not only the distribution of illumination light The lack of unevenness is also likely to cause visual imbalances and doubts that affect the situation. M373607 [New content] In view of the above, the main purpose of this creation is to provide a light source device having a module to adjust and switch different illumination states. In order to achieve the above, the light source device of the present warehouse includes at least: a source, a switch, a control module and a dimming module, and the control module is connected to the light source and the switch "the dimming module and the control The module is connected in parallel, and the dimming module is provided with a first detecting circuit and a switching mode circuit, wherein the voltage detecting circuit detects an input voltage controlled by the switch, and transmits the detecting signal φ to Switching mode circuit, the switching mode circuit sends different dimming signals to the control module according to the detecting signal, so that the control module adjusts the lighting state of the switching light source according to the dimming signal, so that the overall light source device can form multiple segments The mode switches the illumination states of different brightnesses. [Embodiment] The characteristics of this creation can be clearly understood by referring to the detailed description of the drawings and the embodiments. The light source device 3 includes at least one light source 31, and the light source 31 can be provided with one or more light emitting diodes; a switch 32 receives The input voltage is used to switch the light-emitting state of the light source; a control module 33, the control module 33 is connected to the light source 31 and the switch 32'. The control module 33 is provided with a filter circuit 331, a voltage adjustment circuit 332 and a constant current circuit 333. The input voltage can be received and adjusted to the required output voltage and output current of the light source 31, and transmitted to the light source 31 by the constant current 4 M373607 flow circuit 333 to emit light; the dimming module 34, the dimming module The 34 is connected in parallel with the control module 32. The dimming module 34 is provided with a first detecting circuit 341 and a switching mode circuit 342. The first detecting circuit 341 detects the input controlled by the switch 32. The voltage is transmitted to the switching mode circuit 342. The switching mode circuit 342 sends different dimming signals to the constant current circuit 333 of the control module according to the detecting signal. A transformer 35 is connected to the switching switch. 32 Between the control module 33 and the control module 33. * In the whole implementation, when the user turns the switch 32 into the first lighting state, the mains power is transmitted from the switch to the transformer 35 for AC conversion to DC power, and then the DC input voltage is transmitted to the control module 33 and adjusted. The optical module 34, at this time, the switch 32 is normally turned on, so that the input voltage of the transformer 35 is transmitted to the control module 33 and the dimming module 34 does not change, the input voltage is sequentially passed through the filter circuit 331 and the voltage. The adjusting circuit 332 and the constant current circuit 333 finally output a constant voltage and a constant current to illuminate the light source 31, and at this time, the brightness of the light source is the brightest. When the user turns the switch 32 off and then turns on to the second lighting state, the input voltage of the transformer 35 to the control module 33 and the dimming module 34 becomes smaller at the moment of turning off and then turning on the transformer 35. (for example, 75% of the original input voltage), the input voltage is sequentially passed through the filter circuit 331, the voltage adjustment circuit 332, and the constant current circuit 333, and the first detection circuit 341 of the dimming module detects the When the input voltage is small, the detection signal is transmitted to the switching mode circuit 342. The switching mode circuit 343 sends different dimming signals according to the detecting signal (for example, the pulse width modulation signal can be used) to the control module. The current circuit 333, M373607 enables the constant current circuit 333 to adjust the output voltage value and current according to the dimming signal, and illuminate the light source 31, at which time the light source brightness is low. If the user repeats the last action, the switch 32 is sequentially turned on, off, turned on, turned off, and then turned on to the third light-emitting state. At this time, the transformer 35 is transmitted to the instant of the last turn-off and then on. The input voltage of the control module 33 and the dimming module 34 is small (for example, 50% of the original input voltage), and the dimming step is as described above, so that the brightness of the light source is lower; of course, the light source can be adjusted as needed How many different lighting states are there. In addition, the light source device 3 is further provided with an uninterruptible power module 36. As shown in the third figure, the uninterruptible power module 36 is provided with a second detecting circuit 361 and an energy storage device 362. The measuring circuit 361 is for detecting the input voltage, the input end of the energy storage device 362 is connected to the voltage adjusting circuit 332, and the output end of the energy storage device 362 is connected to the input end of the constant current circuit 333; under normal power supply The voltage adjustment circuit 332 of the control module continues to charge the energy storage device 362 or continues until the battery is fully charged. If the second detection circuit 361 detects the power failure (ie, no input power, The energy storage device 362 can supply a power to the constant current circuit 333 to illuminate the light source 31. In addition, as shown in the fourth figure, another embodiment of the creative control module is provided. The control module 4 includes at least: a rectifier circuit 335 for receiving an input voltage, and the input voltage system a DC circuit of 5 to 24 volts; a filter circuit 331 connected to the rectifier circuit 335 to receive the rectified input voltage; a third detection circuit 336, the third detection circuit 336 terminal and the power 6 M373607 The adjusting circuit 332 is connected, and the other end is connected to the light source 31 for detecting the number of the light emitting diodes in the light source 31 and the actual required voltage for generating an actual required voltage value; 'a voltage adjusting circuit 332, the The voltage adjustment circuit 332 is connected to the third detection circuit 336, and the other end is connected to the filter circuit 331 to receive the input voltage and adjust the output voltage according to the actual required voltage value, and the voltage adjustment circuit can follow the input voltage and the actual demand. The voltage difference is chosen to use a buck circuit or a boost circuit, that is, if the input voltage is lower than the actual demand voltage, the voltage adjustment circuit can be a boost circuit, and when the input voltage The voltage adjustment circuit can be a step-down circuit for the actual demand voltage; the constant current circuit 333 is connected to the voltage adjustment circuit 332, and the output current is adjusted according to the output voltage of the voltage adjustment circuit 332, and the constant current circuit 333 is connected to the light source. 31 connections. The control module can receive DC power with an input voltage of 5 to 24 volts, and perform rectification and filtering through the rectifier circuit 335 and the filter circuit 331 in sequence, and the third detection circuit 336 detects the rear LED. The voltage value of the actual demand is transmitted to the voltage adjustment circuit 332, and the voltage adjustment circuit 332 receives the rectified and filtered input voltage, and adjusts the output voltage according to the actual required voltage value, and finally the constant current circuit 333 follows the voltage adjustment circuit. The output voltage of 332 is used to adjust the output current, and the output voltage and the output current are transmitted to the light source 31 to cause it to emit light; of course, the light emitting diodes of the light source may be connected in series or in parallel, if the input voltage is lower than the actual required voltage. The voltage adjustment circuit can be a boost circuit, and the voltage adjustment circuit can be a buck circuit when the input voltage is higher than the actual demand voltage. Of course, in another embodiment of the control module shown in FIG. 4, a 7 M373607 step can be connected to the uninterruptible power module 36, as shown in the fifth figure. In summary, the creation provides a better control device for the cup lamp, and the application for a new patent according to law; the technical content and technical features of the creation; the above, but the person familiar with the technology is still It is possible to make various substitutions and modifications based on the disclosure of this creation without departing from the spirit of the creation of the case. Therefore, the scope of protection of this creation should not be limited to those disclosed in the examples, but should include various substitutions and modifications that do not depart from the present invention and are covered by the following patent application. [Simple description of the diagram] The first diagram is a schematic diagram of the structure of the adjustment device for the brightness of the energy-saving bulb. The second figure is a schematic structural view of the first embodiment of the light source device in the present creation. The third figure is a schematic structural view of the second embodiment of the light source device in the present creation. The fourth figure is a schematic structural view of the third embodiment of the light source device in the present creation. The fifth figure is a schematic structural view of the fourth embodiment of the light source device in the present creation. Φ [Description of main component symbols] Switch 1 Light bulb 21, 22, 23, 24, 25 Light source device 3 Light source 31 Switching switch 32 Control module 33 Filter circuit 331 Voltage adjustment circuit 332 M373607 Constant current circuit 333 Rectifier circuit 335 Third detection Circuit 336 dimming 'module 34 detection circuit 341 switching mode circuit 342 transformer 35 uninterruptible power module 36 second detecting circuit 361 energy storage device 362