M407371 五、新型說明: 【新型所屬之技術領域】 本創作係有關於一種飲水機加熱系統,尤指—種能依階段 溫度的不同改變其加熱功率的加熱節能系統。 【先前技術】 一般而言,在供應熱水的飲水機内部皆設有—加熱器,飲 水機藉由該加熱器之電熱管對熱缸内的水進行加熱,並且在熱 紅上設置—溫度_ϋ,當溫度_關測的水加熱 至沸騰時,即透過一繼電器開關令輸出至電熱管的電力斷開, 讓電熱管停止加熱。此種傳統運作方式雖財施多年,但經本 案創作人研究,無論在電能消耗或管理實務上,皆有相當大的 改良空間。 例如,在·運作的方式巾,供錢絲的輪出電力維持 不變’而前述繼電器開關只具有0N/0FF的開關功能;亦即, 加熱時’電鮮所祕的電力-直保持不變,直到繼電器開關 7輸出至電熱管之電力斷開為止。這樣的運作模式,其所消耗 的電力可以由第―圖看出,當飲水機將水由室溫(約2〇〜30。〇 加熱到_(約97〜刚。〇時’這中_触祕#所消耗的電 力(瓦特W)皆保持-定’其曲線呈水平狀態(X)。 而I人欠機戶斤使用的電熱管為了能快速加熱,其消耗的電力 通常以遠高於水的沸騰溫錄運作,當電歸因水溫加熱到彿 3 M407371 騰而經由繼電器開關將電力斷開後,電熱管的餘熱(如圖—所 示之Y)仍遠高於水溫,而且會保持一段時間才逐涛斤降低到與 水溫相同;換言之,這段電熱管餘熱(γ)所消耗的電力(z)並沒 有被有效利用,只是徒然浪費電力資源。 有鑑於此,本案創作人乃研發出一種針對不同階段溫度 進行加熱的智慧型加熱節能系統’以對電熱管餘熱做有效的運 用,節省電力資源的浪費。 【新型内容】 /本創狀主要目的在於提供—機水機智_加熱節能 系統’藉由祕控制輸出至加熱器電力的方式,讓加熱器之餘 熱可以被有效利用,以達成節能省電的效益。 /為達成上述目的,本創作「飲水機智慧型加熱節能系統」 係包含-設置在熱缸上之加熱器熱缸溫度之溫度感測 器、以及-連接溫度感測器之控制單元;其中,該控制單元進 :步包括-記載有複數階段溫度值之記憶體 '以及—連接加熱 器以動態輸出電力供加熱器運作之負載控制器。 在飲水機之加熱ϋ加熱過財,㈣單元接收溫度感測哭 所感測熱純賴上升訊號,符合記紐職之階段溫产 值時,該控制單元即令負載控制器降低對加熱器之輪出功率^ 使加絲如顧其餘熱_對齡_水進行加熱。 前述記憶體财複數·溫额,至少包財㈣。c、 4 190 C、91〜98 c等階段,該控制單元在接收溫度感測器的訊 虎後由負載L制ϋ控制加熱器的輸出功率,令加熱器在水溫 〇 7〇C區間為最大輪出功率’在水溫7丨賓c區間為中等輸出 功率:在水溫91〜阶時為較小的輸出功率,藉由上述構造, 制單兀V加熱器依照不同的水溫調整輸出的功率,讓加執器 的餘熱做有效铜節能省電的效益。 以下進-步朗各树之實施方式: :㈣控制器實施時,為一半導體所製成之間流體 ),控制早4由控制其交流她峨與脈波訊號觸 ’以降觸加熱ϋ之輸出功率。 ^己隱體只知時’進一步紀錄有對應於複數 預載加熱咖值。前赫卿元在溫度上輕號商符合^ :一科能取得一實際加熱時間值,進而得: 比值’以供^理者判讀加熱效率。例如,當水溫從 加埶時’㈣單湖物力姻間值較預载 實 加熱解比值祕1⑽如:職加熱時間+ ㈣Γ麵清洗雜修加㈣,有雜財機轉修管理。 目車乂於習知技術,杨__ 控制輸出t力bp ^驗刺益動態 n讓域n能針對不同 =:電力的,__元之記:: 載加_,繼物财墙物加熱器。 M407371 【實施方式】 如第二圖、第三圖所示,本創作「飲水機智慧型加熱節能 系統」係包含一設置在熱缸10上之加熱器20、一感測熱缸1〇 • 溫度之溫度感測器30、以及—連接溫度感測器30之控制單元 -- 40 ;其中,該控制單元40進一步包括一記載有複數階段溫度 ' 值之5己憶體%、以及一連接加熱器20以動態輸出電力供加熱 φ 器20運作之負載控制器60。 在飲水機100之加熱20加熱過程中,控制單元4〇接收 溫度感測器30所感測熱红1〇溫度的上升訊號,到達符合記憶 體50所載之階段溫度值時,該控制單元4〇即令負載控制器 5〇 P务低對加熱器2〇之輸出功率’使加熱器20得以利用其餘 熱繼續對熱缸10内的水進行加熱。 如第三圖、第四_示’前述記憶體2Q載有複數階段溫 • 度值,至少包括有0〜7(TC、71〜9(rc、91〜9rc等階段,該控 .· 制單元4〇在接收溫度感測器30的訊號後,由負載控制器6〇 ‘ 控制加熱器2〇的輸出功率,令加熱器20在水溫〇〜贼區間 為最大輪出功率,在水溫71贺c區間為中等輸出功率,在水 溫91,時為較小的輸出功率。藉由上述構造,控制單㈣ 令加熱器依照不同的水溫轉輸出的功率(如第四圖所示之 A),降低加熱器π餘熱⑼的電力消耗,達到節能省電的效益。 以下進-步各元件之實财式: 6 M407371 二嫌’制$ 6G貫施時,為—半導體所製成之閘流體 (TRICA) ’控制單元4〇驻士 日由控制其交流相位訊號與脈波訊號 觸發,以降低對加熱器之輪出功率。M407371 V. New description: [New technology field] This creation department is about a water heater heating system, especially a heating energy-saving system that can change its heating power according to the temperature of the stage. [Prior Art] In general, a heater is provided inside a water dispenser that supplies hot water, and the water dispenser heats the water in the hot cylinder by the electric heating tube of the heater, and sets the temperature on the hot red. _ϋ, when the temperature_closed water is heated to boiling, the power output to the electric heating tube is disconnected through a relay switch, and the electric heating tube is stopped from heating. Although this traditional mode of operation has been used for many years, the research by the creators of this case has considerable room for improvement in terms of power consumption or management practices. For example, in the mode of operation, the power supply for the money wire remains unchanged, and the aforementioned relay switch only has a 0N/0FF switching function; that is, the power of the electric power is kept constant during heating. Until the power output from the relay switch 7 to the electric heating tube is disconnected. This mode of operation, the power it consumes can be seen from the first picture, when the water dispenser will water from room temperature (about 2 〇 ~ 30. 〇 heating to _ (about 97 ~ just. 〇 when this _ touch The power consumed by the secret # (Watt W) is maintained - the curve is in a horizontal state (X). The electric heating tube used by the I person owing to the machine is usually much higher than the water in order to heat it quickly. Boiling temperature recording operation, when the electricity is attributed to the water temperature heating to the Buddha 3 M407371 and the power is disconnected via the relay switch, the residual heat of the electric heating tube (as shown in the figure - Y) is still much higher than the water temperature, and will remain After a period of time, it was reduced to the same temperature as the water; in other words, the electricity (z) consumed by the residual heat (γ) of the electric heating pipe was not effectively utilized, but the power resources were wasted in vain. In view of this, the creator of the case Developed a smart heating and energy-saving system for heating at different stages of temperature' to effectively use the residual heat of the electric heating tube to save waste of power resources. [New content] / The main purpose of this creation is to provide - machine wit _ heating Energy-saving system' by secret control The way to output the power to the heater allows the heat of the heater to be effectively utilized to achieve the energy saving effect. / To achieve the above objectives, the creation of the "Water Dispenser Intelligent Heating Energy Saving System" is included - set in the heat a temperature sensor for the heater hot cylinder temperature on the cylinder, and a control unit for connecting the temperature sensor; wherein the control unit includes: a memory that records a plurality of stages of temperature values and a connection heater The load controller with dynamic output power for the heater to operate. The heating device in the water heater heats up the money, (4) the unit receives the temperature sensing, the sensory sensing heat is purely rising, and the control is in accordance with the stage temperature output value of the new job. The unit will let the load controller reduce the power of the heater to the heater. ^ The wire will be heated according to the rest of the heat _ water _ water. The memory of the above-mentioned memory, the amount of temperature, at least Bao Cai (four). c, 4 190 C, 91 In the stage of ~98 c, the control unit controls the output power of the heater by the load L after receiving the temperature sensor, so that the heater has the maximum output power in the water temperature 〇7〇C interval. The water temperature is 7 丨bin c interval is medium output power: when the water temperature is 91~step, it is a small output power. With the above structure, the single 兀V heater adjusts the output power according to different water temperatures, so that the power is increased. The residual heat of the device is effective for saving energy and saving electricity. The following steps are implemented: (4) When the controller is implemented, the fluid is made between a semiconductor), and the control is controlled by the early 4th. Touch with the pulse signal to reduce the output power of the heating 。. ^The hidden body only knows the time. The further record has the corresponding preloaded heating calorie value. The former Heqingyuan is in accordance with the temperature. Obtain an actual heating time value, and then obtain: the ratio 'to the heatstor to interpret the heating efficiency. For example, when the water temperature is from the twisting' (4) single lake material strength between the marriage value compared with the preloaded solid solution ratio secret 1 (10) Heating time + (four) kneading cleaning and repairing (four), there are miscellaneous financial machine transfer management. The car is ignorant of the known technology, Yang __ control output t force bp ^ test thorn benefit dynamic n let the domain n can be different for different =: power, __ yuan note:: load _, follow the material wall heating Device. M407371 [Embodiment] As shown in the second and third figures, the "drinker intelligent heating and energy saving system" includes a heater 20 disposed on the hot cylinder 10, a sensing hot cylinder 1 温度 • temperature a temperature sensor 30, and a control unit connected to the temperature sensor 30-40; wherein the control unit 40 further includes a 5% memory value recorded with a plurality of stages of temperature values, and a connection heater 20 is a load controller 60 that operates to heat the φ 20 by dynamic output power. During the heating 20 heating process of the water dispenser 100, the control unit 4 receives the rising signal of the temperature of the hot red 1 温度 sensed by the temperature sensor 30, and reaches the temperature value corresponding to the stage contained in the memory 50, the control unit 4〇 That is, the load controller 5 〇 P low to the output power of the heater 2 使 enables the heater 20 to continue heating the water in the hot cylinder 10 with the remaining heat. As shown in the third figure and the fourth figure, the memory 2Q carries a plurality of stages of temperature and temperature values, and at least includes 0 to 7 (TC, 71 to 9 (rc, 91 to 9 rc, etc., the control unit) 4〇 After receiving the signal of the temperature sensor 30, the load controller 6〇' controls the output power of the heater 2〇, so that the heater 20 is at the water temperature 〇 thief interval for the maximum wheel power, at the water temperature 71 The interval c is medium output power, and the output power is small at a water temperature of 91. With the above configuration, the control unit (4) causes the heater to output power according to different water temperatures (as shown in the fourth figure). ), reduce the power consumption of the heater π residual heat (9), and achieve the benefits of energy saving. The following steps into the real-life of each component: 6 M407371 Two suspected '$6G implementation, for the gate made by semiconductor Fluid (TRICA) 'Control Unit 4' is controlled by its AC phase signal and pulse signal to reduce the power to the heater.
理 I己隱體50貝施時’進—步紀錄有對應於複數階段溫度 值之預載城時·單元在溫度上物制達符合 記憶體職之階段溫度值時,能取得—實際加熱時間值,進而 得到加熱效率比值,以供管理者判讀加熱效率。例如,當水溫 從抑加熱至9(TC時’控制單元4〇偵測到實際加熱時間值較 預壯熱時間值長,使加熱效率比值小於!(例如:預载加熱時 間+實際加熱_值=〇.5)時,表示加熱效率降低,即可發出 訊號提醒管理者應清洗雜修加熱器,有助於飲水機的維修管 惟,以之實施說明及圖式所示,係舉例說明本創作之較佳 實施例者,並非以此侷限本創作。是以,舉凡與本創作之構造、 裝置、特徵等近似或相雷同者,均應屬本創作之創設目的及申 請專利範圍之内。 7 M407371 【圖式簡單說明】 第一圖:習知飲水機之加熱器運作狀態示意圖。 第二圖:本創作之結構示意圖(一)。 第三圖:本創作之結構示意圖(二)。 第四圖:本創作之加熱器運作狀態示意圖。 【主要元件符號說明】 100飲水機 10熱缸 20加熱器 30溫度感測器 40控制單元 50記憶體 60負載控制器When I have a hidden body 50, the 'step-by-step record has a preloaded city time corresponding to the temperature value of the complex stage. The unit can obtain the actual temperature when the temperature is up to the temperature value of the memory stage. The value, in turn, gives a heating efficiency ratio for the manager to interpret the heating efficiency. For example, when the water temperature is heated from 9 to TC (the control unit 4 detects that the actual heating time value is longer than the pre-heating time value, the heating efficiency ratio is less than! (for example: preload heating time + actual heating _ When the value = 〇.5), it means that the heating efficiency is reduced, and the signal can be sent to remind the manager that the heater should be cleaned, which helps the maintenance of the water dispenser, as shown in the implementation instructions and drawings. The preferred embodiment of the present invention is not limited to this creation. Therefore, any similarity or similarity to the structure, device, features, etc. of the creation should be within the creation purpose and patent application scope of the creation. 7 M407371 [Simple description of the diagram] The first picture: Schematic diagram of the operating state of the heater of the conventional drinking fountain. The second picture: the schematic diagram of the structure of the creation (1). The third picture: the structure diagram of the creation (2). Figure 4: Schematic diagram of the operating state of the heater. [Main component symbol description] 100 water dispenser 10 hot cylinder 20 heater 30 temperature sensor 40 control unit 50 memory 60 load controller