M325240 、 八、新型說明: , 【新型所屬之技術領域】 本創作涉及-種旋轉燈具的遙控操崎置,尤指—種兼具無線遙控功 能和手動遙控功能的旋轉燈具的遙控操縱裝置。 【先前技術】 如圖1所不,習知旋轉燈具10是一種可縱向及橫向變換照明角度的 ‘ 乡功能照明燈具,可_在車_車頂11上或遊艇的甲板上作為探照燈 、 使用。對於任何需要照明的地點,不需重新調整或移動車輛或遊艇的位置 _ ,使用者直接使用放置在車内或船艙内的手動遙控器15調整旋轉燈具10 的照明角度,就可對需要照明的地點達到照明的目的。 、 習知旋轉燈具10的結構,包括一燈座機殼20,由一上殼體21及一 下殼體22共同組成、一樞設於所述的燈座機殼2〇下面的支承座3〇、及 1 一組柩没於所述的燈座機殼20内部的燈具組件40。其中,所述的燈座機 〆 殼20内部還設有一縱向驅動馬達50,可驅動所述的燈具單元40產生垂 直方向的上下傾斜動作,以變換旋轉燈具1〇的垂直縱向照明角度,以及 ,所述的支承座30内部設有一橫向驅動馬達60,可驅動所述的燈座機殼 20產生水平方向的左右轉動動作,以變換旋轉燈具1〇的水平橫向昭明角 •度。 . 旋轉燈具10的電力來源,由一條設有12伏特(Volt)點煙器插頭75 的電繞線70供應。該電纟覽線70具有三組電源線,第一組電源線η與旋 轉燈具10的燈具組件40構成電性連接,是供應燈具組件40產生照明的 電力源’第^一組電源線72與旋轉燈具10的縱向驅動馬達50構成電性連 接’是供應縱向驅動馬達50產生正轉或反轉的電力源;第三組電源線π 與旋轉燈具10的橫向驅動馬達60構成電性連接,是供應橫向驅動馬達 60產生正轉或反轉的電力源。 1 手動遙控器15聯結在所述的電纟覽線70上,設有一組4向方位控制按 5 4 M325240 …鍵撕、SW2、SW3及SW4及一燈泡電源按鍵SW5。其中,燈泡電源按鍵 ‘ 娜控制電緵線70㈤第一組電源線71㈤通電饋電,可用於控制旋轉产 具10的燈具組件40產生照明或熄滅;方位控制按鍵SW1及SW2控制= 縣70的第二組電源線72的通電與斷電,可用於控制縱向驅動馬工達5〇 產生正轉或反轉以調整旋#燈具10的縱向照明角度;方位控制按鍵挪 及SW4控制電纜線70的第三組電源線73的通電與斷電,可用於控制橫 向驅動馬達60產生正轉或反轉以調整旋轉燈具1〇的橫向照明角度。 不過,所述的手動遙控H 15只能控制縱向驅動馬達5()及橫向驅動馬 達60產生定速(constant speed)正轉或反轉轉動,沒有快速(办对 • speed)及慢速(slow speed)控制功能。當使用者需要車輛或遊艇上的 旋轉燈具10以快速或慢速調整照明角度來照明某個位置或某個角落的時 候,使用範圍就焚到限制,不能多方面應用於各種需要照明的場合。、 另外,所述的手動遙控器15沒有設置rf接收器,只能執行手動遙控 1 的功能,不能執行無線遙控的功能。 v 【新型内容】 有鑑於此,本創作的主要目的即在提供一種遙控操縱裝置,具無線遙 控功能和/或手動遙控功能,尤其具馬達快速/慢速驅動電路,可聯結於具 • 縱向及橫向變換照明角度的旋轉燈具上,以供使用者選擇以無線遙控或以 手動遙控使旋轉燈具產生以定速、快速或慢速調整照明角度。 所述的遙控操縱裝置,用於聯結一條設有點煙器插頭的Gy dc電源 線一條包含三組電源線的電纜線,可以分別控制所述的電纜線的三組電 源線的電力供應,其具無線遙控功能和手動遙控功能的結構包括: 一德:控制器,為獨立^行特定控制功能的IC元件,用於根據輸入的訊號發 出相應的控制訊號; 一RF接收器,用於接收rf訊號及將所接收到的处訊號傳送到微控制器; 一手控電路,包含一組4向方位控制按鍵洲卜SW2、SW3及SW4及一燈泡 % 6 M325240 電源按鍵SW5 ’且用於將所接收到的按鍵輸入訊號傳送咖允制器. •繼電器驅動電路,用於㈣所述的電纜線的其中—_得’ DC電源供應’且由微控制器根據 ㈣娜顺人的《控制㈣騎電器驅動 電路是否提供電力供應;M325240, VIII, new description: , [New technical field] This creation involves a remote control of the rotating luminaire, especially a remote control device for rotating luminaires with both wireless remote control and manual remote control. [Prior Art] As shown in Fig. 1, the conventional rotating luminaire 10 is a ‘home-function lighting fixture that can change the illumination angle in the longitudinal direction and the lateral direction. It can be used as a searchlight on the car _ roof 11 or on the deck of the yacht. For any location that requires illumination, there is no need to re-adjust or move the position of the vehicle or yacht. The user can directly adjust the illumination angle of the rotating fixture 10 using the manual remote control 15 placed in the vehicle or in the cabin. To achieve the purpose of lighting. The structure of the conventional rotating lamp 10 includes a lamp housing 20, which is composed of an upper casing 21 and a lower casing 22, and a support base pivoted under the base 2 of the lamp housing. And a set of luminaire assemblies 40 that are immersed in the interior of the base housing 20. The lamp housing casing 20 is further provided with a longitudinal driving motor 50 for driving the lamp unit 40 to generate a vertical tilting motion in a vertical direction to change the vertical longitudinal illumination angle of the rotating lamp 1〇, and The support base 30 is internally provided with a lateral drive motor 60 for driving the lamp housing 20 to generate horizontal and horizontal rotations to change the horizontal and horizontal angles of the rotating lamp. The source of power for the rotating luminaire 10 is supplied by an electrical winding 70 provided with a 12 volt cigarette lighter plug 75. The electric cable 70 has three sets of power lines. The first set of power lines η are electrically connected to the luminaire assembly 40 of the rotating luminaire 10, and are the power source for supplying the illuminating unit 40 to generate illumination. The longitudinal drive motor 50 of the rotating luminaire 10 constitutes an electrical connection 'that is a power source that supplies the longitudinal drive motor 50 to generate forward or reverse rotation; the third set of power supply lines π is electrically connected to the lateral drive motor 60 of the rotary luminaire 10, Supplying the lateral drive motor 60 produces a forward or reversed source of electrical power. 1 The manual remote controller 15 is coupled to the electric cable 70, and is provided with a set of 4-way azimuth control buttons 5 4 M325240 ... key tear, SW2, SW3 and SW4 and a bulb power button SW5. Among them, the lamp power button 'na control electric line 70 (five) the first group of power lines 71 (five) power feeding, can be used to control the lighting assembly 10 of the rotating fixture 10 to produce illumination or extinguish; azimuth control button SW1 and SW2 control = county 70 The energization and de-energization of the two sets of power lines 72 can be used to control the longitudinal drive of the Ma Gongda 5 to produce a forward or reverse rotation to adjust the longitudinal illumination angle of the rotary lamp 10; the azimuth control button moves to the SW4 control cable 70 The energization and de-energization of the three sets of power lines 73 can be used to control the lateral drive motor 60 to produce a forward or reverse rotation to adjust the lateral illumination angle of the rotating light fixture. However, the manual remote control H 15 can only control the longitudinal drive motor 5 () and the lateral drive motor 60 to generate a constant speed forward or reverse rotation, without rapid (pair speed) and slow speed (slow). Speed) control function. When the user needs the rotating luminaire 10 on the vehicle or the yacht to adjust the illumination angle quickly or slowly to illuminate a certain position or a certain corner, the scope of use is burned to a limit and cannot be applied to various occasions requiring illumination. In addition, the manual remote controller 15 does not have an rf receiver, and can only perform the function of the manual remote control 1, and cannot perform the function of the wireless remote control. v [New content] In view of this, the main purpose of this creation is to provide a remote control device with wireless remote control function and/or manual remote control function, especially with motor fast/slow speed drive circuit, which can be coupled with longitudinal and The rotating luminaire is laterally transformed with an illumination angle for the user to select to rotate the luminaire with a wireless remote control or a manual remote control to adjust the illumination angle at a fixed speed, fast or slow. The remote control device is configured to connect a Gy dc power line provided with a cigarette lighter plug, a cable comprising three sets of power lines, and can respectively control the power supply of the three sets of power lines of the cable. The structure of the wireless remote control function and the manual remote control function includes: a controller: an IC component that is a specific control function for issuing a corresponding control signal according to an input signal; an RF receiver for receiving an rf signal And transmitting the received signal to the microcontroller; a manual control circuit comprising a set of 4-way azimuth control buttons SW2, SW3 and SW4 and a light bulb% 6 M325240 power button SW5' and used for receiving The key input signal transmits the coffee maker. • The relay drive circuit is used for (4) the cable line of which is -_得 'DC power supply' and is controlled by the microcontroller according to (4) Nashun's "Control (4) riding electric drive Whether the circuit provides power supply;
-馬達定賴動,用於控觸述的魏_另外二組電職獲得12V DC電源供應’且由微㈣n根據所輸人的減控制所㈣馬達定速驅 動電路是否提供電力供應;及- The motor is determined to control the touch of the Wei _ the other two groups of electric power to obtain 12V DC power supply ' and by the micro (four) n according to the input control of the person (4) whether the motor fixed speed drive circuit provides power supply;
-馬達快速/慢速驅動電路,是—種電壓調整電路,用於控制所述的電豐 線的另外二組電源線獲得大於或小於12VWC電源供應,且由微控制 器根據所輸入的訊號控制所述的馬達快速/慢速驅動電路是否提供電力 供應。 此外’所述的遙控操縱裝置可以製成僅具無線遙控功能或僅具手動遙 控功能。 【實施方式】 如圖2至圖4所示,本創作所示的遙控操縱裝置8〇,是具連接器功 月b的獨立構件,用於電性聯結一旋轉燈具1〇包含三組電源線、了2及 73的電纜線70及另一條設有點煙器插頭75的12V況電源線%。組合 參後方疋轉4具1〇的電繞線7〇的任一組電源線7i、72或73的電源供應, 需要經過本創作的遙控操縱裝置8〇的控制,才可以獲得電壓12V的直流 • (DC)電源供應。 本創作的遙控操縱裝置80,除具連接器功能之外,還具無線遙控功能 和手動遙控功能,尤其具馬達定速驅動電路及馬達快速广陵速驅動電路, 可供使用者選擇以無線遙控或以手動遙控使旋轉燈具1〇產生以定速、快速 或慢速調整照明角度。 如圖3所示’本創作的遙控操縱裝置80的構造,至少包括一RF接收 Λ 器81、一微控制器(腳)82、一手控電路⑽、一繼電器驅動電路84 7 M325240 馬達定速驅動電路85及-馬達快速/慢速驅動電路86。其中,手控電路 、 83還包含一組4向方位控制按鍵(邠卜SW2、邠3及SW4)及一燈泡電源 按鍵SW5。 本創作的遙控操縱裝置80還設有一 5V變壓器,當所聯結的電源線74 以點煙器插頭75聯接上直流(DC)電壓12V電源後,就會供應5V電源給处 接收器81、微控制器(MCU)82及手控電路83使用。 本創作的遙控操縱裝置8〇的微控制器(MCU)82,係一個能獨立執行 特定控制功能的ic元件,將中央處理單元(CPU)、R〇M記憶體或EEpR〇M 記憶體(電流可消除可程式唯讀記憶體)、記憶體、1/〇控制電路及時 春料數器(CTC)等相關電路整合成單-晶片。而且,微控制器(MCU)82的 ROM或EEPROM記憶體,已儲存包括相應处接收器81及手控電路幻所 輸入的控制資訊。 所述的RF接收器81用於接收到另一台無線發射器90所射出的身分 識別碼和RF訊號,並將所接收到的身分識別碼和处訊號傳送到微控制器 • (MCU)82的輸入埠,經微控制器(MCU)82確認後,所輸入的相應RF訊號 即被解碼成相應的控制訊號和發出相應的控制訊號。 所述的手控電路83用於接收方位控制按鍵SW卜SW2、SW3或SW4 φ 及燈泡電源按鍵sw5的按鍵輸入訊號,並將所接收到的按鍵輸入訊號傳 送到微控制器(MCU)82的輸入埠,經微控制器(MCU)82確認後,即發出 • 相應的控制訊號。 所以’微控制器(MCU)82根據由RF接收器81及手控電路83所輪入 的資訊’立即發出相應的控制訊號來控制所述的繼電器驅動電路84、馬 達定速驅動電路85及馬達快速/慢速驅動電路86呈通電或斷電狀態。 所述的繼電器驅動電路84,用於控制旋轉燈具10的電纜線70的第 一組電源線71獲得電壓12V的直流(DC)電源供應。當RF接收器81收到 ^ 由遠距離的無線發射器90射出的燈泡電源按鍵SW5訊號,或手控電路 83接收到燈泡電源按鍵SW5的輸入訊號,微控制器(MCU)82即根據所 8 M325240 輸入的訊號控制所述的繼電器驅動電路84,使得旋轉燈具1〇產生照明或 熄滅。 所述的馬達定速驅動電路85,用於控制旋轉燈具1〇的電纜線7〇的 第二組電源、線72或第三組電源線72獲得電壓12V的直流(DC)電源供應。 當RF接收器81收到由遠距離的無線發射器9〇射出的方位控制按鍵SW1 、SW2、SW3或SW4訊號,或手控電路83接收到方位控制按鍵sfi、SW2 、SW3或SW4的輸入訊號,微控制器(MCU)82即根據所輸入的訊號控制 所述的馬達定速驅動電路85,使得旋轉燈具1〇以定速調整縱向或横向照 明角度。 所述的馬達快速/慢速驅動電路86是一種電壓調整電路,包括如圖9 所示的可調電壓式穩壓IC電路、或圖1G所示的可調電壓式二極體串聯電 路,或由微控制器(MCU)82以脈波時間控制的數位電壓調整電路。因此 ,所述的馬達快速/慢速驅動電路86用於控制旋轉燈具1〇的電纜線%的 第二組鶴線72或第三組電麟72獲得大於或小於· 12V的直流(dc) 電源供應。 當RF接收器81收到由遠距離的無線發射器9〇射出以快速/慢速控制 的方位控制按鍵SW卜SW2、SW3 & SW4訊號,或手控電路83接收到以快 速/慢速控制的方位控制按鍵謝、SW2、SW3或謂的輸入訊號,微控制 器(MCU)82即根據所輸入的訊號控制所述的馬達快速/慢速驅動電路祕, ^使得旋轉燈具10以快速或慢速調整縱向或橫向照明角度。 因此,如圖4所示,本創作的遙控操縱裝置8〇可放置在車内或船艙 内’並供細者選擇以無線遙控或財動遙控,使綱在車輛的車頂η 上或遊艇的甲板上_燈具1G赴蚊速、快速紐賴整卿角度。 如圖5及圖6所示,本創作的遙控操縱裝置8〇a可製成僅具無線遙控 功能,以供使用者以無線遙控方式控制旋_登具1〇產生照明或媳滅,或 在照明的狀態下產生定速、快速或慢速調整照明角度。 如圖7及圖8所示,本創作的遙控操縱裝置8〇b可製成僅具手動遙控- Motor fast / slow drive circuit, is a voltage adjustment circuit for controlling the other two sets of power lines of the electric power line to obtain a power supply greater than or less than 12VWC, and controlled by the microcontroller according to the input signal Whether the motor fast/slow drive circuit provides power supply. Further, the remote control device can be made to have only a wireless remote control function or only a manual remote control function. [Embodiment] As shown in FIG. 2 to FIG. 4, the remote control device 8A shown in the present invention is a separate component with a connector power month b for electrically connecting a rotating lamp 1 and includes three sets of power lines. The cable line 70 of 2 and 73 and the other 12V power supply line % provided with the cigarette lighter plug 75. The power supply of any one of the power lines 7i, 72 or 73 of the electric winding 7〇 of the four-turn electric winding is required to be controlled by the remote control device 8〇 of the present invention, and the DC of the voltage of 12V can be obtained. • (DC) power supply. The remote control device 80 of the present invention has a wireless remote control function and a manual remote control function in addition to the connector function, in particular, a motor fixed speed drive circuit and a motor fast Guangling speed drive circuit, which can be selected by the user to wirelessly control or The manual illumination is used to cause the rotating luminaire to produce a fixed angle, fast or slow adjustment of the illumination angle. As shown in FIG. 3, the configuration of the remote control device 80 of the present invention includes at least an RF receiving unit 81, a microcontroller (foot) 82, a manual control circuit (10), and a relay driving circuit 84 7 M325240. Circuit 85 and - motor fast / slow drive circuit 86. The manual control circuit 83 further includes a set of 4-way azimuth control buttons (邠SW2, 邠3, and SW4) and a bulb power button SW5. The remote control device 80 of the present invention is further provided with a 5V transformer. When the connected power line 74 is connected to the direct current (DC) voltage of 12V by the cigarette lighter plug 75, the 5V power supply is supplied to the receiver 81, and the micro control is provided. The device (MCU) 82 and the manual control circuit 83 are used. The microcontroller (MCU) 82 of the remote control device of the present invention is an ic component capable of independently performing a specific control function, and the central processing unit (CPU), R〇M memory or EEpR〇M memory (current) It can eliminate the programmable read-only memory, memory, 1/〇 control circuit, and the spring circuit (CTC) and other related circuits into a single-wafer. Moreover, the ROM or EEPROM memory of the microcontroller (MCU) 82 has stored control information including the corresponding receiver 81 and the manual control circuit input. The RF receiver 81 is configured to receive the identity identifier and the RF signal emitted by the other wireless transmitter 90, and transmit the received identity identifier and the signal to the microcontroller (MCU) 82. After the input is confirmed by the microcontroller (MCU) 82, the corresponding RF signal input is decoded into a corresponding control signal and a corresponding control signal is issued. The manual control circuit 83 is configured to receive a button input signal of the azimuth control button SW, SW2, SW3 or SW4 φ and the lamp power button sw5, and transmit the received button input signal to the microcontroller (MCU) 82. After the input is confirmed by the microcontroller (MCU) 82, the corresponding control signal is issued. Therefore, the 'micro controller (MCU) 82 controls the relay drive circuit 84, the motor fixed speed drive circuit 85, and the motor based on the information "turned in by the RF receiver 81 and the manual control circuit 83" to immediately issue corresponding control signals. The fast/slow drive circuit 86 is energized or de-energized. The relay drive circuit 84 is configured to control a first set of power lines 71 of the cable 70 of the rotating luminaire 10 to obtain a direct current (DC) power supply of a voltage of 12V. When the RF receiver 81 receives the bulb power button SW5 signal emitted by the remote wireless transmitter 90, or the manual control circuit 83 receives the input signal of the bulb power button SW5, the microcontroller (MCU) 82 is according to the The signal input by the M325240 controls the relay drive circuit 84 so that the rotating luminaire 1 〇 is illuminated or extinguished. The motor fixed speed drive circuit 85 controls a second set of power supplies, lines 72 or a third set of power lines 72 of the cable 7 旋转 of the rotating luminaire 1 获得 to obtain a direct current (DC) power supply of 12 V. When the RF receiver 81 receives the azimuth control button SW1, SW2, SW3 or SW4 signal emitted by the remote wireless transmitter 9, or the manual control circuit 83 receives the input signal of the azimuth control button sfi, SW2, SW3 or SW4 The microcontroller (MCU) 82 controls the motor constant speed drive circuit 85 according to the input signal, so that the rotary lamp 1 adjusts the vertical or horizontal illumination angle at a constant speed. The motor fast/slow drive circuit 86 is a voltage adjustment circuit including an adjustable voltage regulator IC circuit as shown in FIG. 9 or an adjustable voltage diode series circuit as shown in FIG. 1G, or A digital voltage adjustment circuit controlled by a microcontroller (MCU) 82 with pulse time. Therefore, the motor fast/slow drive circuit 86 is used to control the second set of crane lines 72 or the third group of power cables 72 of the rotating cable 1〇 to obtain a direct current (dc) power supply greater than or less than ·12V. supply. When the RF receiver 81 receives the azimuth control button SW, SW2, SW3 & SW4 signal which is emitted by the remote wireless transmitter 9 for fast/slow speed control, or the manual control circuit 83 receives the fast/slow speed control The azimuth control button X, SW2, SW3 or the input signal, the microcontroller (MCU) 82 controls the motor fast/slow drive circuit secret according to the input signal, ^ makes the rotating lamp 10 fast or slow Adjust the vertical or horizontal illumination angle quickly. Therefore, as shown in FIG. 4, the remote control device 8 of the present invention can be placed in the vehicle or in the cabin' and the finer chooses to use the wireless remote control or the financial remote control to make the vehicle roof η or the deck of the yacht. On the _ luminaire 1G to the mosquito speed, fast Nilai qingqing angle. As shown in FIG. 5 and FIG. 6, the remote control device 8〇a of the present invention can be made only with a wireless remote control function, so that the user can control the rotation or the annihilation by wireless remote control, or A fixed speed, fast or slow adjustment of the illumination angle is produced in the state of illumination. As shown in FIG. 7 and FIG. 8, the remote control device 8〇b of the present invention can be made only with manual remote control.
M325240 功能,以供使用者以手動遙控方式控制旋轉燈具1〇產生照明或媳滅 在照明的狀態下產生定速、快速或慢速調整照明角度。 ▲以上所示乃本創作的較佳實施例,舉凡局部的變更或修飾,且為 该項技藝者所易於推知者,應仍屬本創作的範疇。 【圖式簡單說明】 圖1係習用旋轉燈具的内部結構圖及使肖手動遙控難制習用旋轉燈 具產生酬或熄滅’或在酬的狀態下產生定速__肢的示意圖。 圖2係本創作所示的遙控操縱裝置的示意圖。 圖3係圖2所不的遙控操縱裝置具無線遙控和手動遙控雙功能及具馬 達快速/慢速驅動電路的電路結構方塊圖。 ,圖4係使關2所tf的遙控操縱裝置以無線遙控或手動遙控方式控制 白用㈣k具產生_顿滅,或在照明的狀態下產生定速、快速或慢速 調整照明角度的示意圖。 圖5係本創作的遙控操縱裝僅具無線遙控功能的實施例 ,及使用這種 遙控操縱裝置以無_控方式_ f知_祕產生照明或賊 ,或在照 明的狀態下產生定速、快速紐速調整照明角度的示意圖。 圖6係圖5所示的遙控操縱褒置及無線發射器的電路結構方塊圖。 Η係本創作的遙控操縱跋僅具手動遙控功能的實施例 ,及使用這種 遙控操縱裝置財動遙控方式㈣習知旋轉燈具產生照明或誠,或在照 明的狀態下產生定速、快速或慢速調整照明角度的示意圖。 圖8係圖7所示的遙鋪職置的f路結财顯。 圖9係一種可調電壓式穩壓1C電路。 圖10係-種可調電壓式二極體串聯電路。 【主要元件符號說明】 10…· 旋轉燈具 15.........手動遙控器 11.........車頂 20.........燈座機殼 M325240 21·· ……上殼體 22........ ••下殼體 30·· .......支承座 40........ *·燈具組件 50·· .......縱向驅動馬達 60........ ••檢向驅動馬達 70·· .......電纟覽線 71........ * ·第一組電源線 72·· .......第二組電源線 73........ "第一組電源線 74·· .......電源線 75........ ••點煙器插頭 80·· ……遙控操縱裝置 81........ ••RF接收器 82·· ……微控制器 83........ *·手控電路 84·· .......繼電器驅動電路 85........ ••馬達定速驅動電路 86·· .......馬達快速/慢速驅動電路 90·· ……無線發射器 SW5…… …燈泡電源按鍵 SW1 、SW2、SW3、SW4........ •方位控制按鍵 11The M325240 function allows the user to control the rotating luminaire by manual remote control. 1 〇 Illumination or annihilation Produces constant speed, fast or slow adjustment of the illumination angle in the state of illumination. ▲The above is a preferred embodiment of the present invention, and any part of the modification or modification, and which is easily inferred by the skilled person, should still fall within the scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the internal structure of a conventional rotary luminaire and a method of generating a fixed speed __ limb in a state in which a manual remote control is difficult to manufacture or a rotating lamp is used. Figure 2 is a schematic illustration of the remote control device shown in the present writing. FIG. 3 is a block diagram showing the circuit structure of the remote control device with wireless remote control and manual remote control and the motor fast/slow drive circuit. Fig. 4 is a schematic diagram of controlling the remote control device of the 2 tf by wireless remote control or manual remote control to generate a fixed speed, a fast or a slow adjustment of the illumination angle in the state of illumination. FIG. 5 is an embodiment of the remote control device of the present invention having only a wireless remote control function, and using the remote control device to generate illumination or a thief without a control method, or generating a constant speed in an illuminated state, A quick new speed adjustment diagram of the illumination angle. Figure 6 is a block diagram showing the circuit structure of the remote control device and the wireless transmitter shown in Figure 5. The remote control operation of the present invention has only the embodiment of the manual remote control function, and the use of the remote control device for the remote control mode (4) conventionally, the rotating luminaire produces illumination or honesty, or generates a fixed speed, fast or in the state of illumination A schematic diagram of slowly adjusting the illumination angle. FIG. 8 is a diagram showing the f road of the remote shop shown in FIG. Figure 9 is an adjustable voltage regulator 1C circuit. Figure 10 is a series of adjustable voltage diode series circuits. [Main component symbol description] 10...· Rotating luminaire 15......Manual remote control 11.........Car roof 20......... Lamp holder housing M325240 21··...Upper housing 22........•• Lower housing 30··......Support base 40........ *·Lamp assembly 50· · ....... Longitudinal drive motor 60........ •• Directional drive motor 70·· .......Electric cable 71........ * · The first group of power lines 72··.......The second group of power lines 73........ "The first group of power lines 74··.......Power lines 75 ........ ••Cigarette lighter plug 80··...Remote control device 81........••RF receiver 82··...microcontroller 83..... ... *·Hand control circuit 84·· .......Relay drive circuit 85........ ••Motor fixed speed drive circuit 86·· ....... Motor fast / Slow drive circuit 90··...Wireless transmitter SW5...... ...Lamp power button SW1, SW2, SW3, SW4........ • Azimuth control button 11