M277824 八、新型說明: 【新型所屬之技術領域】 本創作風扇自動調整風速之裝置,為一種運用無刷馬 達組裝為風扇轉控速度自動調整之設計,依風扇外侧組裝 之溫度感測器,適當的檢控外侧的溫度,配合控制面板上 微處理器的自動處理操控,通過溫度設定器的預先溫度設 定,使經由溫度檢知達到簡便風扇馬達轉速的調整,令風 扇轉動風速具自動變換調整之使用目的。 胃 【先前技術】 傳統電風扇的扇風轉控,通常藉由實際輸入電流的轉 控,配合面板所設不同轉速的按鍵撥控,達到風扇轉控電 動馬達轉速之控制變換,亦即一般常見分成三、四段的風 扇轉速變換選擇,用以驅控一般電動馬達的轉速,使達到 整個風扇葉片掮風轉速的變換,而以此等的風速調整與選 控,其實完全有賴使用者之體膚感受到周圍溫度的冷熱後 # ,方能判定再選擇按控之風速操作,如此對一般室内尤其 搭配冷氣機使用時,整個風扇的掮風操作,呈固定吹風的 设計,並無法隨實際使用室溫的人數或溫升狀況做適當的 自動調整變換,通常需由人感受到室溫的高低,再去操作 風扇做關閉或轉換低轉速的掮風操作,而此一由人感測再 反應按控的操作,其實均是已造成過低或不適的溫差後, 方會有感覺,此一使用模式,其實一直是現行室溫控制上 所感不便又不易處理的,尤其強調恆溫控制使用需要,以 冷氣房内藉由電扇做加速冷卻的使用,為克服此一因應電 4 M277824 風扇使用不易自動化調整控制的需要,故便有所謂定時操 控的裝置與設計’惟以電風扇的使用,其在室内的使用時 ,尚兼具調整空氣乾濕度及空氣流通的辅助效用,是以如 何開發一組可連續使用,並能自動調整其轉動風速,以達 到與室溫同步適當變換轉控的風扇轉速控制,應是一種極 符合人性化的設計,更是業者開發改良設計的目標。 【新型内容】 本創作者有鑑於現行風扇之風速調整無法滿足自動調 鲁 整之實用上缺點,乃依多年來電動馬達製作的改良經驗, 配合無刷馬達驗狀良,賴發出本創作—種風扇自動 調整風速之裝置,直接以無刷馬達為動力源,配合溫度感 測器及微處理器的連結控制,使達到無刷馬達適當轉速調 整之控制,形成風扇風速的自動增減調整,免除手動調整 及控制上的諸多不便缺失。 本創作的目的在於:提供一種可隨環境溫度變換做風 • 扇掮風轉速自動調整,以增減風速設計的電風扇轉控結構 ,使風扇使用更符合人性化需要的實用目的。 【實施方式】 為方便貴審查委員能進一步瞭解本創作之結構實用 特性’謹配合實施說明圖例配合詳細說明如后: 本創作風扇自動調整風速之裝置,其整個設計請配合 第一、二圖所示,主要將風扇之轉動馬達設由無刷馬達組 裝,配合無刷馬達無段轉控之特性,方便風扇的掮風操作 以付合實際使用的轉動需要為無段之變速設計,整個控 M277824 制之結構,係於風扇本體(1 Ο >•的外殼適當位置,通常 設於進風一侧的殼體外,組裝一溫度感測器(11 ),使 其與設於底盤座(12)上按控開關(13)内控制電路 板上的微處理器(14)相連結,另設有一供設定控制溫 度用的溫度設定器(15)等分別以線路相連結,主要係 連結到内設具電腦微處理器(14)的控制電路板上,使 其得以經由溫度感測器(11)所檢知的室溫高低,做為 驅控無刷馬達轉速快慢的調整變換,使風扇的使用與室溫 的變換做相對的轉控調整,其完全無需藉由人為的操作, 僅需於使用之初依使用需要做溫度的設定,達到相對風量 轉速的自動調整變換,使整支電扇的掮風轉控,真正符合 自動化、人性化使用之控制目的。 而以本創作風扇馬達轉控的自動調整設計與使用,其 主要即依預設的溫度感測器(1 1 ),配合溫度設定器( 15)的室溫設定,即可達到固定的恆溫控制設定,使風 扇的轉動,依溫度感測器(11)的檢知室溫,一般較佳 的組裝位置即設於實際電扇入風一侧的外殼部份,依吸入 風溫做為整個溫控的基點,使其得以在設定溫度達一定高 溫時,得以做強力的驅控馬達做較高速的轉動,達到高風 速的掮風操作,當溫度降到適當的位置或溫差較小時,則 又可適時的降低整個風扇的轉動速率,達到適當風速的掮 風操控,使室溫可維持在適當的室溫設定,而當室溫趨穩 定時,則可藉由慢速轉控風扇的轉動,維持整個室内空氣 的適當流通性,達到恆溫及全面均溫的使用效果,真正符M277824 8. Description of the new model: [Technical field to which the new model belongs] This device for automatically adjusting the fan speed is a design that uses a brushless motor to assemble the fan to automatically control the speed of the fan. The temperature sensor assembled on the outside of the fan is appropriate. The temperature on the outside is controlled by the automatic processing and control of the microprocessor on the control panel. The preset temperature setting of the temperature setter makes it easy to adjust the fan motor speed through temperature detection. purpose. Stomach [Previous technology] The fan-wind transfer control of traditional electric fans usually uses the actual input current transfer control and the buttons on the panel to control the speed of the electric motor, which is generally common. The fan speed conversion option divided into three or four sections is used to drive the rotation speed of general electric motors to achieve the conversion of the fan blade wind speed. In fact, the wind speed adjustment and selection control are completely dependent on the user ’s body. After the skin feels the hot and cold surrounding temperature #, it can be judged and then choose to operate according to the controlled wind speed, so when it is used in general indoors, especially with air conditioners, the whole fan's wind operation is a fixed blower design, which cannot follow the actual situation. The number of people using the room temperature or the temperature rise condition to make appropriate automatic adjustments and changes, usually people need to feel the room temperature, and then operate the fan to turn off or switch the low-speed sirocco operation, and this one is detected by the person and then The response to the controlled operation is actually a temperature difference that has caused too low or uncomfortable feelings. This use mode has always been the current room temperature control. The system is inconvenient and difficult to handle. It especially emphasizes the use of constant temperature control. In the air-conditioned room, the use of accelerated cooling by electric fans is used. In order to overcome this need, the use of 4 M277824 fans is not easy to automatically adjust and control, so there is a so-called The device and design of timing control are only for the use of electric fans. When it is used indoors, it also has the auxiliary effect of adjusting the air dry humidity and air circulation. It is how to develop a group that can be used continuously and can be automatically adjusted. The rotating speed of the fan to achieve the appropriate fan speed control in accordance with the room temperature in order to properly convert the fan speed control should be a very humane design, and it is the goal of the industry to develop and improve the design. [New content] The author has the practical shortcomings of the current fan speed adjustment that cannot meet the requirements of automatic adjustment. It is based on many years of improved experience in the production of electric motors. The device that automatically adjusts the wind speed directly uses the brushless motor as the power source, and cooperates with the temperature sensor and the microprocessor to control the connection to achieve the appropriate speed adjustment control of the brushless motor to form an automatic increase and decrease of the fan wind speed, eliminating manual Many inconveniences in adjustment and control are missing. The purpose of this creation is to provide an electric fan transfer control structure that can automatically adjust the wind speed as the ambient temperature changes • The fan fan wind speed is automatically adjusted to increase or decrease the wind speed, so that the use of the fan is more practical for human needs. [Implementation] In order to facilitate your review members to further understand the practical characteristics of the structure of this creation, 'I would like to cooperate with the implementation illustration legend and detailed description as follows: This creative fan automatically adjusts the wind speed. For the entire design, please cooperate with the first and second drawings. As shown, the fan's rotating motor is mainly assembled by a brushless motor. With the characteristics of the stepless control of the brushless motor, it is convenient for the fan to operate the wind. The structure is based on the proper position of the housing of the fan (1 0 > •). It is usually located outside the housing on the air inlet side, and a temperature sensor (11) is assembled to connect it to the chassis base (12). The microprocessor (14) on the control circuit board in the control switch (13) is connected, and a temperature setter (15) for setting and controlling the temperature is connected by a line, which is mainly connected to the internal device. The control circuit board with a computer microprocessor (14) enables it to pass the temperature of the room temperature detected by the temperature sensor (11) as an adjustment to control the speed of the brushless motor, The use of the fan is relative to the change of room temperature. It does not need manual operation at all. It only needs to set the temperature according to the needs at the beginning of use. The fan's fan wind control is truly in line with the control purpose of automation and user-friendly use. The automatic adjustment design and use of the fan motor switch control based on this creation is mainly based on the preset temperature sensor (1 1). The room temperature setting of the temperature setter (15) can reach a fixed constant temperature control setting, so that the fan rotates, and the room temperature is detected according to the temperature sensor (11). Generally, the better assembly position is set to the actual electric fan. The part of the casing on the inlet side is based on the temperature of the suction wind as the base point of the entire temperature control, so that when the set temperature reaches a certain high temperature, it can be a powerful drive control motor to rotate at high speed to achieve high wind speed. Wind operation, when the temperature drops to a proper position or the temperature difference is small, the rotation speed of the entire fan can be reduced in time to achieve the proper wind speed and stern wind control, so that the room temperature can be maintained at a proper level. Temperature setting, and when the temperature stabilization timing of rotation can be controlled by the slow rotation of the fan, the entire chamber to maintain a proper flow of air, to achieve the full use of effects and the average temperature of the thermostat, the real symbol
M277824 合實際使用時之需要與目的,就其人性化的設計,在經由 無刷馬達及特殊(VAV)無段風速控制功能之設計,可癌實使 電風扇的使用,具實用創新之功效,更屬電風扇轉控結構 設計上之創新設計。 綜上所述,本創作風扇自動調整風速之裝置,直接以 無刷馬達為風扇轉控之馬達使用,配合外侧殼具上所設的 溫度感測器及轉控之電路板及微處理器的簡便組装控制, 使風扇的轉控可收到真正隨溫差做自動增減轉速,以達到 控制輸出風量的變換操作,使風扇的使用真正符合實用及 人性化的自動調整功能,就其自動增減調整風速之結構設 计’確具細實用效益之提升特性,更已符合新型專利要 件’爰依法提出申請。 【圖式簡單說明】 (一)·圖式部份: ^ 一圖·係本創作風扇轉速調整結構組裝參考圖。 圖·係本創作風速自動調整控制系、統 【主要元件符號說明】 (二)圖號部份 ^10)本體 <12)底盤座 (14)微處理器 (11)感測器 (13)按控開關 (15)溫度設定器M277824 meets the needs and purposes of actual use. With regard to its humanized design, the design of brushless motor and special (VAV) stepless wind speed control function can make the use of electric fans practical and innovative. It is an innovative design in the design of the electric fan transfer control structure. In summary, the device for automatically adjusting the wind speed of the creative fan directly uses a brushless motor as the fan transfer control motor, and cooperates with the temperature sensor set on the outer casing and the transfer control circuit board and microprocessor. Simple assembly and control, so that the fan's rotation control can be automatically increased or decreased according to the temperature difference to achieve the operation of changing the output air volume, so that the use of the fan really meets the practical and user-friendly automatic adjustment function. The structural design of reducing wind speed has the characteristics of practical and practical benefits, and it has already met the requirements for new patents. [Brief description of the drawings] (I) · Schematic part: ^ A drawing · This is the reference drawing for the assembly of the fan speed adjustment structure of the original creation. Figure · Department of wind speed automatic adjustment control system and system [Description of main component symbols] (II) Drawing number part ^ 10) Body < 12) Chassis base (14) Microprocessor (11) Sensor (13) Press control switch (15) temperature setter