M441805 π、新型淨明: [0001] 【新型所屬之技術領域】 本創作是有關於一種電力節能控制裝置,特別是有關於 一種可偵測環境條件以控制目標裝置之運行之電力節能 控制裝置。 [0002] i 【先前技術】 近年來地球暖化問題嚴重,進而影響到全球的生態與氣 候,主要原因之一是來自於用電量的逐漸提升,而為了 達到節能減碳之目的,因此在家庭電器、廠房設備及大 型建物用電等大量用電之情況中,應該要設想節能相關 之各項措施並落實執行,方可有效監控及管制電力之使 用,以期盡量地減少無謂之電能耗費。 [0003] • 由於夏季之時氣候炎熱難耐,因此各種空調設備已經在 曰常生活當中扮演相當重要的角色。但空調設備雖在夏 季當中提供舒適的生活環境,但是其用電消耗卻是佔夏 季尖峰負載量的三至四成左右。其中,冷氣機之控制方 式通常是由手動操控遙控器,以進行啟停冷氣機及設定 溫度、模式等功能。由於是手動控制,因此,往往無法 隨當下的室溫及環境溫度作適當及時的控制調整,例如 中午時設定冷氣溫度為攝氏22度,若無刻意調整,到了 晚間,溫度不像中午那般炎熱,但冷氣機仍依設定之溫 度攝氏22度持續運轉,進而造成用電量之浪費。 [0004] 此外,冷氣機亦可利用内部之溫度感測單元進行感測自 身周遭之溫度,並據以調整運行模式。由於溫度感測器 係設於冷氣機内部,若其位置靠近出風口,其吹出之冷 10121120^^^^ A〇101 ^ 3 I / ^ 23 I 1012035893-0 M441805 氣將使得所測得之溫度會略低於環境溫度;若設置於鄰 近馬達處,因馬達散熱,測得溫度可能會略高於環境溫 度;故,該溫度偵測單元可能因設置位置鄰近出風口或 馬達,而使測得之溫度失去準確性。 [0005] 有鑑於此,如何能夠兼顧使用者生活或者是工作的舒適 環境,但又能夠節能以減少用電輸出,便是需積極投入 研發以及改良的技術領域。 【新型内容】 [0006] 有鑑於上述習知技藝之問題,本創作之目的就是在提供 一種電力節能控制裝置,以達到節省設備用電量之目的 [0007] 根據本創作之目的,提出一種電力節能控制裝置,可連 接目標裝置,電力節能控制裝置包含:一控制模組、一 偵測模組、一通訊模組及一處理單元。控制模組可控制 目標裝置進行運行模式。偵測模組可偵測環境之環境條 件以產生偵測資訊。電力節能控制裝置藉由通訊模組連 接遠端電子裝置。處理單元可電性連接控制模組、偵測 模組及通訊模組,藉由遠端電子裝置輸入預設值,並以 通訊模組傳送預設值至處理單元儲存,處理單元亦接收 偵測資訊,當處理單元判斷偵測資訊符合預設值時,可 以控制模組控制目標裝置進行對應預設值之運行模式》 [0008] 較佳地,控制模組可為紅外線模組、繼電器單元或其組 合0 [0009] 較佳地,當處理單元判斷偵測資訊符合預設值時,可藉 HH2112〇f 單编號 A〇101 第4頁/共23頁 1012035893-0 M441805 由紅外線模組傳送控制訊號至目標裝置,使目標裝置進 行對應預設值之運行模式。 [0010] 較佳地,紅外線模組可包含紅外線發射端及紅外線接收 端,紅外線接收端可接收目標裝置之紅外線訊號,以獲 取紅外線訊號之頻率,紅外線發射端可發射對應紅外線 訊號之頻率之控制訊號以無線控制目標裝置。 [0011] 較佳地,電力節能控制裝置更連接另一電力節能控制裝 置,另一電力節能控制裝置連接另一目標裝置,目標裝 置與另一目標裝置之紅外線訊號之頻率相同,電力節能 控制裝置傳送紅外線訊號至另一電力節能控制裝置,以 使另一電力節能控制裝置藉由對應紅外線訊號之頻率之 控制訊號控制另一目標裝置。 [0012] 較佳地,電力節能控制裝置可以紅外線模組獲取目標裝 置之紅外線訊號之頻率,並傳送紅外線訊號至另一電力 節能控制裝置,以使另一電力節能控制裝置控制另一目 標裝置。 [0013] 較佳地,預設值為複數個,且偵測資訊符合複數個預設 值之一時,控制模組可使目標裝置進行第一運行模式, 當偵測資訊符合複數個預設值之另一時,控制模組可使 目標裝置進行第二運行模式。 [0014] 較佳地,偵測模組可更包含人體偵測單元,當偵測資訊 符合複數個預設值之另一,且人體偵測單元偵測到環境 有人時,目標裝置可延遲預定時間後再進行第二運行模 式0 loimzof單編號A_ 第5頁/共23頁 1012035893-0 M441805 [0015] 較佳地,偵測模組可包含溫度偵測單元、溼度偵測單元 、亮度偵測單元、壓力偵測單元、聲音偵測單元、煙霧 偵測單元或其组合。 [0016] 較佳地,電力節能控制裝置可更包含電力偵測模組,可 偵測目標裝置之電力以產生電力資訊,當控制模組使目 標裝置進行對應預設值之運行模式時,處理單元可接收 電力資訊,並判斷電力資訊是否對應目標裝置目前之運 行模式,若否,則產生警示訊號。 [0017] 較佳地,電力偵測模組可包含電壓偵測單元、電流偵測 單元、功率偵測單元、頻率偵測單元、電量偵測單元或 其組合。 [0018] 較佳地,電力資訊未對應目標裝置目前之運行模式時, 處理單元根據警示訊號,使警示單元發出警示訊息,以 通知人員以手動方式使目標裝置進行對應預設值之運行 模式。 [0019] 較佳地,電力資訊未對應目標裝置目前之運行模式時, 處理單元根據警示訊號,使控制模組控制目標裝置再次 進行對應預設值之運行模式。 [0020] 較佳地,電力節能控制裝置可更包含變壓單元,可對外 部電源輸入之電壓進行變壓,以供電予電力節能控制裝 置。 [0021] 較佳地,處理單元所接收之偵測資訊可藉由通訊模組傳 送至遠端電子裝置。 [0022] 承上所述,本創作之電力節能控制裝置,其可具有一或 1012035893-0 10121120#單編號八0101 第6頁/共23頁 M441805 多個下述優點: (Ο此電力節能控制裝置可藉由偵測模組偵測環境之環 境條件產生偵測資訊,並藉由偵測資訊及預設之預設值 判斷是否改變目標裝置之運行模式,藉此可準確的依當 時當地的環境狀況進行節能措施。 (2)此電力節能控制裝置可藉由人體偵測單元進行偵測 ,如倘若環境中有人時,便可延遲預定時間後再將目標 裝置之運行模式改為關閉,而不是馬上關閉,藉此可使 本創作之電力節能控制裝置更貼近人性。 • (3)此電力節能控制裝置可藉由電力偵測模組偵測目標 裝置之電力以產生電力資訊,依據該電力資訊判斷目標 裝置是否依控制模組控制轉換對應當下環境之運行模式 ,藉此確保電力節能控制裝置之執行穩定度。 【實施方式】 [0023] 為利貴審查員瞭解本發明之技術特徵、内容與優點及其 所能達成之功效,茲將本發明配合附圖,並以實施例之 ^ 表達形式詳細說明如下,為使便於理解,下述實施例中 之相同元件係以相同之符號標示來說明,而其中所使用 之圖式,其主旨僅為示意及輔助說明書之用,未必為本 發明實施後之真實比例與精準配置,故不應就所附之圖 式的比例與配置關係解讀、侷限本發明於實際實施上的 權利範圍,合先敘明。 [0024] 請參閱第1圖及第2圖;第1圖係為本創作之電力節能控制 裝置之第一方塊圖;第2圖係為本創作之電力節能控制裝 置之第一示意圖。如圖所示,本創作之電力節能控制裝 顏測#單編號A0101 1012035893-0 第7頁/共23頁 M441805 置1 ’可連接一目標裝置2,電力節能控制裝置1包含:一 控制模組11、一偵測模組12、一通訊模組13及一處理單 元14。控制模組11可控制目標裝置2進行至少一或多種運 行模式。偵測模紐12可偵測目標裝置2所在環境之環境條 件(例如溫度、濕度及亮度等)以產生偵測資訊丨21 ^通 訊模組13可使電力節能控制裝置1連接遠端電子裝置3 ^ 處理早元14可為微處理器、微控制器、可程式邏輯閘陣 列或一具有可程式化之積體電路,其可電性連接控制模 組11、偵測模組12及通訊模組13,藉由遠端電子裝置3輸 入預設值301,並以通訊模組13傳送預設值3〇1至處理單 兀14儲存,處理單元14亦接收偵測資訊121 ;當處理單元 14判斷偵測資訊12ι符合預設值3〇1之一時,可以控制模 組11控制目標裝置2進行對應預設值3〇1之一之運行模式 〇 [0025]其中,上述之目標裝置2可為家用電器或廠用設備,如空 調、除濕設備等,在此實施例中係以冷氣機作為目標裝 置2之示範態樣,但不應以此為限。順帶一提的是,當目 標裝置2以冷氣機作為示範態樣時,其運行模式可為啟動 、關閉、送風或風量調整等◊另,如第2圖所示本創作之 電力節能控制裝置1可更包含一變壓單元15,其可對外部 電源(如室電)輸入之電壓進行變壓,以適當之電壓供 予電力節能控制裝置1。 陶]值得一提的是,處理單元14所接收之偵測資訊121可藉由 通訊模組13傳送至遠端電子裝置3 ^而遠端電子裝置3可 為桌上型電腦、筆記型電腦、雲端伺服器、平板電腦或 10121120#單编號A0101 第8頁/共23頁 1012035893-0 M441805 智慧型手機,其可進一步紀錄偵測資訊121,以利後續進 行統計分析或匯出報表等作業。而其中通訊模組13之傳 送方式可為WIFI、ZIGBEE、RF或藍芽,於本實施例中係 以ZIGBEE作為示範態樣,但應不以此為限。 [0027] 隨著夏曰來臨,溫度逐漸攀高,然,在冷氣等空調設施 普遍的運轉情況之下,用電量及用電費用亦隨著溫度越 來越高,因此,如何兼具節省用電及舒適的居住、工作 環境,即為一大重要課題。承上所述,本創作提供一個 可營造舒適的居住或工作環境,亦或者是一可供廠房内 設備運作進行良好運作,且兼具節能功效之電力節能控 制裝置。 [0028] 請進一步參閱第3圖,其係為本創作之電力節能控制裝置 之第二方塊圖。如圖所示,電力節能控制裝置1之偵測模 組12可為溫度偵測單元122、溼度偵測單元、亮度偵測單 元、壓力偵測單元、聲音偵測單元、煙霧偵測單元或其 組合,於本實施例中係以溫度偵測單元122為例,但不應 以此為限。 [0029] 於本實施例中,電力節能控制裝置1可設置於可使溫度偵 測單元能準確測得室内溫度之位置,亦為不具有影響偵 測因素之位置。電力節能控制裝置1一方面可利用溫度偵 測單元122,針對目標裝置2(冷氣機)所在之環境偵測環 境溫度,而偵測模組12所產生之偵測資訊121會包含溫度 資訊。於此假設環境之目前溫度為攝氏26度,並傳送予 處理單元14。另一方面,可於遠端電子裝置3輸入一預設 值301,假設預設值301為環境溫度攝氏25度。此時,處 1012112〇f 單編謂01 第9頁/共23頁 1012035893-0 M441805 理單元14係以偵測資訊121中之資訊内容(環境溫度攝氏 26度)與預設值301 (環境溫度攝氏25度)做比對及判斷, 判斷之後處理單元14便可使控制模組11切換冷氣機之運 行模式,在此運行模式可包含啟動及關閉,因現實環境 溫度高於預設值301之攝氏25度,故,控制模組11便會使 冷氣機啟動,反之,當環境溫度低於預設值301,控制模 組11便將冷氣機關閉。順帶一提的是,可依不同需求設 置不同的預設值301,設定之預設值301可藉由通訊模組 13傳送至處理單元14儲存。 [0030] 承上所述,當預設值301為複數個,如一預設值301為環 境溫度攝氏23度,另一預設值301環境溫度為26度,則其 對應之運行模式可為,當環境溫度達攝氏23以上時,可 將冷氣機調為送風模式,當環境溫度上升至26以上時, 便將冷氣機調為冷房模式,藉此以不同預設值301對應轉 換不同之運轉模式《然,前述係為示範態樣,其預設值 301及運轉模式皆不予限制。 [0031] 其中值得注意的是,偵測模組12可更包含人體偵測單元 123,當偵測資訊121符合某一預設值301,而需關閉冷 氣機,但人體偵測單元123偵測到環境有人時,冷氣機可 延遲一段預定時間後再關閉。亦或當偵測資訊121符合另 一預設值301,而需啟動冷氣機,但人體偵測單元123偵 測到環境無人時,可停止或延遲一段預定時間啟動冷氣 機。其中預定時間可以為5或10分鐘等,其可視實際需求 加以變更,亦可為一原出廠之預定時間值或可為後續使 用者自行進行調整的時間值。 101211201^單编號 A〇101 第10頁/共23頁 1012035893-0 M441805 [0032] 有鑑於紅外線於現今的廣泛應用,本創作之電力節能控 制裝置1之控制模組11除了可為繼電器單元外,亦可為紅 外線模組111或兩者之組合,於本實施例中係以紅外線模 組111為示範態樣,但不應以此為限。當處理單元14判斷 偵測資訊121符合預設值301時,可藉由紅外線模組in 傳送控制訊號1111至目標裝置2(冷氣機),使冷氣機進行 對應預設值301之運行模式。換言之,紅外線模組hi可 如遙控器一般,藉由發射控制訊號1111控制冷氣機轉換 運行模式’而運行模式可包含送風、冷房、關閉及啟動 ® 等,不予限制。 [0033]其中,红外線模組111更可包含紅外線發射端112及紅外 線接收端113,紅外線接收端113可接收目標裝置2之紅外 線訊號201 ’以獲取紅外線訊號2〇1之頻率,紅外線發射 端112可發射對應紅外線訊號201之頻率之控制訊號iiii 以無線控制目標裝置2。簡單地說,不同之目標裝置(如 不同廠牌之電器),其紅外線訊號2〇1之頻率應不相同, 而本創作之電力節能控制裝置1分別應用到不同之目標裝 置時,電力節能控制裝置1之紅外線模組U1係具有學習 能力,可先進行學習接收到之目標裝置2之紅外線訊號 201之頻率,以發射對應該目標裝置2之控制訊號lm。 [0034]請一併配合參閱第4圖及第5圖,第4圖係為本創作之電力 節能控制裝置之第三方塊圖;第5圖係為本創作之電力節 此控制裝置之紅外線廣播流程圖。如圖所示,當電力節 能控制裝置1連接另一電力節能控制裝置丨,,另一電力 節能控制裝置Γ連接另一目標裝置2,,其中目標裝置2 lomuo户·單編號A0101 第11頁/共23頁 1012035893-0 M441805 與另一目標裝置2’之紅外線訊號201、201’之頻率相同 (例如相同機型之冷氣機);目標裝置2傳送紅外線訊號 201至電力控制模组1(如步驟S51),並以電力節能控制 裝置1進行學習紅外線訊號201之頻率(如步驟S52),進 而使電力節能控制裝置1可控制目標裝置2(如步驟S53), 於此時,目標裝置1進一步將紅外線訊號2〇1傳送至另一 電力節能控制裝置1’ (如步驟S54),以使另一電力節能 控制裝置1’可據以學習紅外線訊號201之頻率(如步驟 S55) ’且產生對應紅外線訊號2〇1之頻率之控制訊號 1111’ ’進而控制另一目標裝置2’ (如步驟S56) » [0035] 換δ之’當環境(例如大廠房或大辦公室)中具有兩台 同機型之目標裝置2、2,時,將一電力節能控制裝置1連 接一目標裝置2,而將另一電力節能控制裝置丨,連接另 一目標裝置2’ ,於此時,各電力節能控制裝置丨、丨,可 能需各別進行學習各自對應連接之目標裝置2、2,之紅 外線訊號201、201,之頻率;然,因為目標裝置2、2, 係為同機型,其紅外線訊號201、2〇1,之頻率應相同, 因此,可運用紅外線模組11 i之可廣播特性,其可僅由其 中一電力節能控制裝置1進行學習,再將其學習之紅外線 訊號201廣播至另一電力節能控制裝置丨,,以省去電力 節能控制裝置Γ學習之過程。 [0036] 復請參照第3圖,本創作之電力節能控制裝置丨可更包含 電力偵測模組16,其可包含電屋制單元、電流销測單 元、功率偵測單元、頻率偵測單元、電量偵測單元或其 組合,其可偵㈣目標裝置2之電力以產生電力資訊l6iM441805 π, new type of net: [0001] [New technical field] The present invention relates to a power saving control device, and more particularly to a power saving control device capable of detecting environmental conditions to control the operation of a target device. [0002] i [Prior Art] In recent years, the problem of global warming is serious, which affects the global ecology and climate. One of the main reasons is the gradual increase in electricity consumption, and in order to achieve energy conservation and carbon reduction, In the case of large amounts of electricity used in household appliances, plant equipment, and large-scale construction and use of electricity, it is necessary to envisage various measures related to energy conservation and implement them in order to effectively monitor and control the use of electricity, with a view to minimizing unnecessary electricity consumption. [0003] • Due to the temperate climate in summer, various air-conditioning equipments have played a very important role in everyday life. However, although air-conditioning equipment provides a comfortable living environment during the summer season, its electricity consumption is about 30% to 40% of the peak load in summer. Among them, the control method of the air conditioner is usually to manually control the remote controller to start and stop the air conditioner and set the temperature and mode. Due to the manual control, it is often impossible to make proper and timely control adjustments with the current room temperature and ambient temperature. For example, the cold air temperature is set to 22 degrees Celsius at noon. If there is no intentional adjustment, the temperature is not as hot as noon at night. However, the air conditioner still runs continuously at a set temperature of 22 degrees Celsius, which causes waste of power consumption. [0004] In addition, the air conditioner can also sense the temperature around itself by using the internal temperature sensing unit, and adjust the operation mode accordingly. Since the temperature sensor is installed inside the air conditioner, if it is located close to the air outlet, it will blow out the cold 10121120^^^^ A〇101 ^ 3 I / ^ 23 I 1012035893-0 M441805 gas will make the measured temperature It will be slightly lower than the ambient temperature; if it is placed near the motor, the measured temperature may be slightly higher than the ambient temperature due to the heat dissipation of the motor; therefore, the temperature detecting unit may be measured by the position adjacent to the air outlet or the motor. The temperature loses accuracy. [0005] In view of this, how to balance the user's life or the comfortable environment of work, but to save energy and reduce the power output is a technical field that needs to be actively invested in research and development and improvement. [New Content] [0006] In view of the above-mentioned problems of the prior art, the purpose of the present invention is to provide a power saving control device to save power consumption of the device [0007] according to the purpose of the present invention, a power is proposed The energy-saving control device can be connected to the target device, and the power-saving control device comprises: a control module, a detection module, a communication module and a processing unit. The control module controls the target device to operate in mode. The detection module detects environmental conditions of the environment to generate detection information. The power saving control device connects the remote electronic device through the communication module. The processing unit can be electrically connected to the control module, the detection module and the communication module. The remote electronic device inputs the preset value, and the communication module transmits the preset value to the processing unit for storage, and the processing unit also receives the detection. Information, when the processing unit determines that the detection information meets the preset value, the control module can control the target device to perform the operation mode corresponding to the preset value. [0008] Preferably, the control module can be an infrared module, a relay unit or Combination 0 [0009] Preferably, when the processing unit determines that the detection information meets the preset value, the HH2112〇f single number A〇101 page 4/23 pages 1012035893-0 M441805 can be transmitted by the infrared module. The control signal is sent to the target device to enable the target device to perform an operation mode corresponding to the preset value. [0010] Preferably, the infrared module can include an infrared emitting end and an infrared receiving end, and the infrared receiving end can receive the infrared signal of the target device to obtain the frequency of the infrared signal, and the infrared transmitting end can transmit the frequency corresponding to the infrared signal. The signal wirelessly controls the target device. [0011] Preferably, the power saving control device is further connected to another power saving control device, and the other power saving control device is connected to another target device, and the frequency of the infrared signal of the target device and the other target device is the same, and the power saving control device The infrared signal is transmitted to another power saving control device such that the other power saving control device controls the other target device by the control signal corresponding to the frequency of the infrared signal. Preferably, the power saving control device can obtain the frequency of the infrared signal of the target device by the infrared module, and transmit the infrared signal to another power saving control device to enable another power saving control device to control another target device. [0013] Preferably, when the preset value is plural, and the detection information meets one of the plurality of preset values, the control module may cause the target device to perform the first operation mode, and when the detection information meets the plurality of preset values At another time, the control module can cause the target device to perform the second mode of operation. [0014] Preferably, the detection module can further include a human body detecting unit. When the detection information meets another of the plurality of preset values, and the human body detecting unit detects the environment, the target device can delay the reservation. After the time, the second operation mode is performed. 0 loimzof single number A_ 5th page/total 23 page 1012035893-0 M441805 [0015] Preferably, the detection module can include a temperature detecting unit, a humidity detecting unit, and a brightness detecting Unit, pressure detecting unit, sound detecting unit, smoke detecting unit or a combination thereof. [0016] Preferably, the power saving control device further includes a power detecting module that can detect power of the target device to generate power information, and when the control module causes the target device to perform an operation mode corresponding to the preset value, The unit can receive power information and determine whether the power information corresponds to the current operating mode of the target device, and if not, generate a warning signal. [0017] Preferably, the power detection module can include a voltage detection unit, a current detection unit, a power detection unit, a frequency detection unit, a power detection unit, or a combination thereof. Preferably, when the power information does not correspond to the current operation mode of the target device, the processing unit causes the warning unit to issue a warning message according to the warning signal to notify the person to manually perform the operation mode of the target device corresponding to the preset value. [0019] Preferably, when the power information does not correspond to the current operating mode of the target device, the processing unit causes the control module to control the target device to perform the operation mode corresponding to the preset value again according to the warning signal. [0020] Preferably, the power saving control device further includes a transformer unit that can transform the voltage input to the external power source to supply power to the power saving control device. [0021] Preferably, the detection information received by the processing unit can be transmitted to the remote electronic device by using the communication module. [0022] As described above, the power saving control device of the present invention may have one or 1012035893-0 10121120# single number eight 0101 page 6 / total 23 pages M441805 multiple advantages: (Ο) power saving control The device can detect the information by detecting the environmental conditions of the environment, and determine whether to change the operation mode of the target device by detecting the information and the preset preset value, thereby accurately determining the local mode at the time. (2) The power-saving control device can be detected by the human body detection unit. If there is someone in the environment, the operation mode of the target device can be changed to off after a predetermined time delay. It is not immediately closed, which makes the power-saving control device of this creation closer to humanity. (3) The power-saving control device can detect the power of the target device by the power detection module to generate power information according to the power. The information judges whether the target device controls the operation mode of the switching environment according to the control module, thereby ensuring the execution stability of the power saving control device. [Embodiment] [ The technical features, contents and advantages of the present invention and the efficacies thereof can be understood by the present inventors, and the present invention will be described in detail with reference to the accompanying drawings, in order to facilitate understanding. The same elements in the embodiments are denoted by the same reference numerals, and the drawings are used for the purpose of illustration and supplementary description, and are not necessarily true proportions and precise configurations after the implementation of the present invention, so The scope of the present invention should be interpreted and limited in terms of the scope of the accompanying drawings, and the scope of the present invention is set forth in the actual implementation. [0024] Please refer to Figure 1 and Figure 2; The first block diagram of the power energy-saving control device; the second figure is the first schematic diagram of the power-saving control device of the present invention. As shown in the figure, the power-saving control device of the present invention is measured by the single number A0101 1012035893-0 7 pages/total 23 pages M441805 1 "Connectable to a target device 2, the power saving control device 1 comprises: a control module 11, a detecting module 12, a communication module 13 and a processing unit 14. Control mode 11 can control the target device 2 to perform at least one or more operation modes. The detection module 12 can detect environmental conditions (such as temperature, humidity, brightness, etc.) of the environment in which the target device 2 is located to generate detection information. 13 can connect the power saving control device 1 to the remote electronic device 3 ^ The processing unit 14 can be a microprocessor, a microcontroller, a programmable logic gate array or a programmable integrated circuit, which can be electrically connected The control module 11, the detection module 12, and the communication module 13 input the preset value 301 by the remote electronic device 3, and transmit the preset value 3〇1 to the processing unit 14 for processing by the communication module 13 to process The unit 14 also receives the detection information 121. When the processing unit 14 determines that the detection information 12ι meets one of the preset values 3〇1, the control module 11 can control the target device 2 to perform an operation mode corresponding to one of the preset values 3〇1. [0025] wherein the target device 2 can be a household appliance or a factory equipment, such as an air conditioner, a dehumidification device, etc., in this embodiment, an air conditioner is used as an exemplary aspect of the target device 2, but this should not be used. Limited. Incidentally, when the target device 2 uses the air conditioner as an exemplary aspect, the operation mode may be startup, shutdown, air supply, or air volume adjustment, etc., as shown in FIG. 2, the power saving control device 1 of the present creation Further, a transformer unit 15 can be provided which can transform the voltage input from an external power source (such as a room power) to the power saving control device 1 with an appropriate voltage. It is worth mentioning that the detection information 121 received by the processing unit 14 can be transmitted to the remote electronic device 3 by the communication module 13 and the remote electronic device 3 can be a desktop computer or a notebook computer. Cloud server, tablet or 10121120# single number A0101 Page 8 of 23 1012035893-0 M441805 Smart phone, which can further record detection information 121 for subsequent statistical analysis or export of reports. The transmission mode of the communication module 13 may be WIFI, ZIGBEE, RF or Bluetooth. In this embodiment, ZIGBEE is used as an exemplary mode, but it should not be limited thereto. [0027] With the advent of Xia, the temperature is gradually rising. However, under the general operation of air-conditioning facilities such as air-conditioning, the electricity consumption and electricity consumption are also increasing with temperature, so how to save money. Electricity and comfortable living and working environment are an important issue. As stated above, this creation provides a comfortable living or working environment, or an energy-saving energy-saving control device that can operate well in the plant and has energy-saving effects. [0028] Please refer to FIG. 3, which is a second block diagram of the power saving control device of the present invention. As shown in the figure, the detection module 12 of the power saving control device 1 can be a temperature detecting unit 122, a humidity detecting unit, a brightness detecting unit, a pressure detecting unit, a sound detecting unit, a smoke detecting unit or In the embodiment, the temperature detecting unit 122 is taken as an example, but should not be limited thereto. In the present embodiment, the power saving control device 1 can be disposed at a position that enables the temperature detecting unit to accurately measure the indoor temperature, and also has a position that does not affect the detecting factor. The power saving control device 1 can use the temperature detecting unit 122 to detect the ambient temperature of the environment in which the target device 2 (air conditioner) is located, and the detecting information 121 generated by the detecting module 12 includes the temperature information. It is assumed here that the current temperature of the environment is 26 degrees Celsius and is transmitted to the processing unit 14. Alternatively, a predetermined value 301 can be input to the remote electronic device 3, assuming that the preset value 301 is an ambient temperature of 25 degrees Celsius. At this time, the department 1012112〇f single code 01 page 9 / 23 pages 1012035893-0 M441805 unit 14 is to detect the information content in the information 121 (ambient temperature 26 degrees Celsius) and the preset value 301 (ambient temperature After 25 degrees Celsius, the comparison and judgment are made. After the judgment, the processing unit 14 can cause the control module 11 to switch the operation mode of the air conditioner, and the operation mode can include starting and closing, because the actual environment temperature is higher than the preset value 301. At 25 degrees Celsius, the control module 11 will activate the air conditioner. Conversely, when the ambient temperature is lower than the preset value 301, the control module 11 will shut down the air conditioner. Incidentally, different preset values 301 can be set according to different requirements, and the preset values 301 can be transmitted to the processing unit 14 for storage by the communication module 13. [0030] As described above, when the preset value 301 is plural, for example, a preset value 301 is an ambient temperature of 23 degrees Celsius, and another preset value 301 is an ambient temperature of 26 degrees, the corresponding operation mode may be, When the ambient temperature reaches 23 or above, the air conditioner can be adjusted to the air supply mode. When the ambient temperature rises above 26, the air conditioner is switched to the cold room mode, thereby converting different operation modes with different preset values 301. "Rather, the foregoing is an exemplary aspect, and its preset value 301 and operation mode are not limited. [0031] It should be noted that the detection module 12 may further include a human body detecting unit 123. When the detection information 121 meets a preset value 301, the air conditioner needs to be turned off, but the human body detecting unit 123 detects When there is someone in the environment, the air conditioner can be turned off after a predetermined period of time. Alternatively, when the detection information 121 meets another preset value 301, the air conditioner needs to be activated, but when the human body detecting unit 123 detects that the environment is unmanned, the air conditioner may be stopped or delayed for a predetermined period of time. The predetermined time may be 5 or 10 minutes, etc., which may be changed according to actual needs, or may be a predetermined time value of the original factory or a time value that can be adjusted by subsequent users. 101211201^单编号A〇101 Page 10/Total 23 page 1012035893-0 M441805 [0032] In view of the wide application of infrared rays in the present day, the control module 11 of the power saving control device 1 of the present invention can be a relay unit. In the embodiment, the infrared module 111 is used as an exemplary embodiment, but it should not be limited thereto. When the processing unit 14 determines that the detection information 121 meets the preset value 301, the infrared module can transmit the control signal 1111 to the target device 2 (air conditioner) to cause the air conditioner to perform the operation mode corresponding to the preset value 301. In other words, the infrared module hi can control the air conditioner switching operation mode by transmitting the control signal 1111 as in the remote control, and the operation mode can include air supply, cold room, shutdown and start-up, etc., without limitation. [0033] The infrared module 111 further includes an infrared emitting end 112 and an infrared receiving end 113. The infrared receiving end 113 can receive the infrared signal 201' of the target device 2 to obtain the frequency of the infrared signal 2〇1, and the infrared emitting end 112 The control signal iiii corresponding to the frequency of the infrared signal 201 can be transmitted to wirelessly control the target device 2. Simply put, different target devices (such as different brands of electrical appliances), the frequency of the infrared signal 2〇1 should be different, and the power saving control device 1 of the present invention is applied to different target devices respectively, the power saving control The infrared module U1 of the device 1 has a learning capability, and can first learn the frequency of the infrared signal 201 of the target device 2 received to transmit the control signal lm corresponding to the target device 2. [0034] Please refer to Figure 4 and Figure 5 together. Figure 4 is a third-party block diagram of the power-saving control device of the present invention; Figure 5 is the infrared broadcast of the control device of the power section of the creation. flow chart. As shown in the figure, when the power saving control device 1 is connected to another power saving control device, another power saving control device is connected to another target device 2, wherein the target device 2 is a single number A0101 page 11 / A total of 23 pages 1012035893-0 M441805 and the frequency of the infrared signal 201, 201' of another target device 2' (for example, the same type of air conditioner); the target device 2 transmits the infrared signal 201 to the power control module 1 (step S51), and the power saving control device 1 performs the frequency of learning the infrared signal 201 (step S52), so that the power saving control device 1 can control the target device 2 (step S53), at which time the target device 1 further The infrared signal 2〇1 is transmitted to another power saving control device 1' (step S54), so that another power saving control device 1' can learn the frequency of the infrared signal 201 (step S55) and generate corresponding infrared rays. Control signal 1111' of the frequency of signal 2〇' and then control another target device 2' (as in step S56) » [0035] Change the δ's environment (eg large factory or large office) In the case of two target devices 2 and 2 of the same model, one power saving control device 1 is connected to one target device 2, and the other power saving control device is connected to another target device 2'. The power-saving control devices 丨 and 各 may need to learn the frequency of the infrared signals 201 and 201 of the target devices 2 and 2 respectively connected to each other; however, since the target devices 2 and 2 are the same type The frequency of the infrared signals 201 and 2〇1 should be the same. Therefore, the broadcastable characteristic of the infrared module 11 i can be utilized, and the infrared signal can be learned only by one of the power saving control devices 1 and then learned. 201 is broadcasted to another power saving control device 以 to save the process of learning the power saving control device. [0036] Referring to FIG. 3, the power saving control device of the present invention may further include a power detecting module 16, which may include an electric house unit, a current pin detecting unit, a power detecting unit, and a frequency detecting unit. , a power detection unit or a combination thereof, which can detect (4) the power of the target device 2 to generate power information l6i
A010I 第12頁/共23頁 1012035893-0 M441805 當控制模組11使目標裝置2進行對應預設值301之運行模 式時,處理單元14可接收電力資訊161,並判斷電力資訊 161是否對應目標裝置2目前進行之運行模式;若是,則 表示目前之運行模式確實為對應預設值301之運行模式; 若否,則產生警示訊號。而電力資訊161及警示訊號亦可 如偵測資訊121—般,藉由通訊模組13傳送至遠端電子裝 置3記錄統計,以利後續作業。 [0037] 其中,產生警示訊號後,處理單元14根據警示訊號,使 警示單元4發出警示訊息(如聲音、燈號或其組合),以通 知人員以手動方式(如操控遙控器)使目標裝置2進行對應 預設值301之運行模式。或者是,處理單元14根據警示訊 號,使控制模組11控制目標裝置2再次進行對應預設值 301之運行模式。 [0038] 透過本創作之電力節能控制裝置於設計上之巧思變化, 由其處理單元以一或多個預設值與各種偵測資訊進行判 斷,進而調整目標裝置之運行模式,且兼具節能之目的 ,為習知技術所不能及者,故可見其增益性所在。 [0039] 綜觀上之所述,可見本創作之電力節能控制裝置在突破 先前之技術下,確實已達到所欲增進之功效,且也非熟 悉該項技藝者所易於思及,其所具之進步性、實用性, 顯然已符合專利之申請要件,爰依法提出專利申請,懇 請貴局核准本件創作專利申請案,以勵創作,至感德便 【圖式簡單說明】 [0040] 第1圖係為本創作之電力節能控制裝置之第一方塊圖。 1012035893-0 10121120^單編號A〇101 第13頁/共23頁 M441805 第2圖係為本創作之電力節能控制裝置之第一示意圖β 第3圖係為本創作之電力節能控制裝置之第二方塊圖。 第4圖係為本創作之電力節能控制裝置之第三方塊圖。 第5圖係為本創作之電力節能控制裝置之紅外線廣播流程 圖。 【主要元件符號說明】 [0041] 1 ' Γ :電力節能控制裝置 11 :控制模組 111 :紅外線模組 1111、1111’ :控制訊號 112 :紅外線發射端 113 :紅外線接收端 12 :偵測模組 121 :偵測資訊 122 :溫度偵測單元 123 :人體偵測單元 13 :通訊模組 14 :處理單元 15 :變壓單元 16 :電力偵測模組 161 :電力資訊 2 ' 2’ :目標裝置 201、201’ :紅外線訊號 3:遠端電子裝置 301 :預設值 4 :警示單元 1012035893-0 1012112〇f單編號Α〇101 第14頁/共23頁 M441805 S51至S56 :步驟A010I Page 12 of 23 1012035893-0 M441805 When the control module 11 causes the target device 2 to perform the operation mode corresponding to the preset value 301, the processing unit 14 can receive the power information 161 and determine whether the power information 161 corresponds to the target device. 2 The current running mode; if yes, it indicates that the current operating mode is indeed the operating mode corresponding to the preset value 301; if not, a warning signal is generated. The power information 161 and the warning signal can also be transmitted to the remote electronic device 3 through the communication module 13 for detecting the information 121 to facilitate subsequent operations. [0037] After the warning signal is generated, the processing unit 14 causes the warning unit 4 to issue an alert message (such as a sound, a light number, or a combination thereof) according to the warning signal to notify the person to manually make the target device (such as manipulating the remote controller). 2 Perform an operation mode corresponding to the preset value 301. Alternatively, the processing unit 14 causes the control module 11 to control the target device 2 to perform the operation mode corresponding to the preset value 301 again according to the warning signal. [0038] The design of the power saving control device of the present invention is ingeniously changed, and the processing unit judges one or more preset values and various detection information, thereby adjusting the operation mode of the target device, and both The purpose of energy conservation is that it cannot be achieved by conventional technology, so its gain is visible. [0039] From the above, it can be seen that the power saving control device of the present invention has achieved the desired effect under the breakthrough of the prior art, and is not familiar with the skill of the artist, and has its own Progressive and practical, obviously meet the patent application requirements, and file a patent application according to law, and ask your bureau to approve the creation of this patent application, to encourage creation, to the sense of convenience [schematic description] [0040] Figure 1 It is the first block diagram of the power-saving control device of the creation. 1012035893-0 10121120^单号A〇101 Page 13 of 23 M441805 The second picture is the first schematic diagram of the power-saving control device of the creation. The third picture is the second of the power-saving control device of the creation. Block diagram. Figure 4 is a third-party block diagram of the power-saving control device of the creation. Figure 5 is a flow chart of the infrared broadcast of the power-saving control device of the creation. [Main component symbol description] [0041] 1 ' Γ : Power saving control device 11 : Control module 111 : Infrared module 1111 , 1111 ' : Control signal 112 : Infrared transmitting end 113 : Infrared receiving end 12 : Detection module 121: Detection information 122: Temperature detecting unit 123: Human body detecting unit 13: Communication module 14: Processing unit 15: Transforming unit 16: Power detecting module 161: Power information 2 '2': Target device 201 , 201 ' : Infrared signal 3 : Remote electronic device 301 : Preset value 4 : Warning unit 1012035893-0 1012112 〇 f single number Α〇 101 Page 14 / Total 23 pages M441805 S51 to S56 : Steps
丽·#單編號A0101 第15頁/共23頁 1012035893-0丽·#单号A0101 Page 15 of 23 1012035893-0