M282125 . 八、新型說明·· 【新型所屬之技術領域】 本創作係關於—#^ — ra 種工5周機溫度控制裝置,尤指一種摘M282125. VIII. Description of the new type [Technical field to which the new type belongs] This creation is about — # ^ — ra seeder 5-week machine temperature control device, especially an extractor
有可量測遠離空調機遠端外部位置溫度之溫 裔之空調機溫度控制裝置。 V 【先前技術】 現有習用空調機皆僅於甘π m 1所曰、0ί +# …、回風口裝設一溫度感測器, 其所夏測之溫度值直接顯示 、,—心、山 只Ί趴工凋機正面之控制面板上, 亚精以作為空調機之溫度控制之參考。 因溫度易受物理因素影響, 而為介# 〇丨& 故具有冷空氣會往下沉, 而熱工氣則在上飄之特性。再泰 再者’一般空調機皆裝設於室 内較咼處,其出風口係設於空 气从^ 又%工凋機面框下端,而回風口則 设於空調機面框上端,因此空 15 仰 此二凋機之回風口極為靠近天花 板。S用空調機因係量測盆幸古 & ^ ^ ,、較回處回風口之溫度作為溫度 拴制之蒼考,其與使用者實際 .σ 貝丨不所在較低處位置之溫度顯有 差距’因此會造成溫度控制 J个彳土之情开》。舉例說明,當空 調機作冷氣機使用時,1所吹 . /、所人出之冷氣往下沉,因此空調 钱回風口係吸入較暖之空氧, 礼而一般使用者實際所處位置 、、w择〆^ 门又為低,故貫際上使用者所處之 ,. —k成過冷之現象。又當空調機 作暖氣機使用時,其所吹出之睡# 7人出之日友乳往上飄,較冷之空氣則 住下沉,因此空調機回風口传 ,.,^ 係及入較暖之空氣,故實際上 使用者所處之溫度較回風口之、、w 皿度為低,造成不暖之現 20 M282125 象。因此,以空調機回風口之溫度作為空調機溫度控制之 參考,會造成溫度控制不佳之情形,讓使用者有過冷或不 暖等感覺不舒服之現象。 5There is an air conditioner temperature control device that can measure the temperature of the external location far from the remote end of the air conditioner. V [Prior art] Existing conventional air conditioners are only installed at Gan π m 1, 0ί + #…, a temperature sensor is installed at the return air outlet, and the temperature value measured in summer is directly displayed,-heart, mountain only精 On the control panel on the front of the machine, Yajing is used as a reference for the temperature control of the air conditioner. Because the temperature is susceptible to physical factors, it has the characteristics that cold air will sink and hot gas will drift upward. Zai Tai Zai 'general air conditioners are installed in the upper part of the room. The air outlet is located at the lower end of the airframe, and the air return is located at the upper end of the airframe. The return air outlet of these two withers is very close to the ceiling. The air conditioner of S is used to measure the basin Xinggu & ^ ^, and the temperature of the return air outlet is used as the temperature control, which is actually different from the user. There is a gap 'so it will cause the temperature control of the J soil. For example, when an air conditioner is used as an air conditioner, 1 person blows the air conditioner. Therefore, the air return port of the air conditioner inhales warmer air oxygen. As a general rule, the actual location of the user, , W choose 〆 ^ The door is low, so the user is always in the world, —k becomes too cold. And when the air conditioner is used as a heater, the sleep that it blows out # 7 people ’s milk from the day goes up, and the colder air sinks, so the air conditioner returns to the air outlet,., ^ The warm air, in fact, the temperature of the user is lower than that of the return air outlet. Therefore, using the temperature of the return air outlet of the air conditioner as a reference for the temperature control of the air conditioner will cause poor temperature control and make users feel uncomfortable such as being too cold or warm. 5
10 1510 15
【新型内容】 本創作一種空調機溫度控制裝置,主要具有一空調 機、及至少一溫度傳送器。其中,溫度傳送器係設置於遠 離空調機外之遠端外部位置,溫度傳送器並具有一溫度偵 測器用以量測其所對應的遠端外部位置之遠端溫度值 Τη ’並透過/jizl度傳送器將返端溫度值傳送出去。空調機 具有一溫度设疋态、一溫度感測器、一微處理器、一壓縮 機、及一回風口。其中,溫度設定器係設定一目標溫度值 Τ ;溫度感測器係設置於空調機之回風口,並量測其回風 溫度值Τ0 ;微處理器係分別電連接至溫度設定器、溫度感 測器、及壓縮機。且微處理器並接收溫度傳送器所傳來之 遠端溫度值Τη、及溫度感測器所量測到之回風溫度值τ〇, 並依據下列公式進行運算處理以獲得一參考溫度值Tc。 係指加 參考溫度值 tc = r〃l_+ , Σ /+ι ,、中 權係數,η=1,2,3,···。微處理器並比對參考溫度值Tc與目標 溫度值T,進而輸出一相對應之控制訊號,藉以控制壓縮 機之運轉。 因此,本創作藉由設置於遠離空調機外之溫度傳送 σσ可將使用者貫際所在位置之確實溫度傳送給空調機之 20 M282125 微處理器,微處理器運算處理後與目標溫度值比較,並輸 出一控制訊號以控制空調機之壓縮機之運轉,可使空調 所提供之溫度環境符合使用者實際之目標溫度值,不 過冷或不暖等讓使用者感覺不舒服之現象。 θ 5 上述微處理器之運算處理方式,其各個加權係數/可 設:為相同或不同。若每一溫度傳送器、及空調機回風口 =度均一視同仁,則加權係數均相同為i。若使用者實際 戶处之位置車乂重要,則可提高其所處位置之溫 ,。=:需:使微處理器所獲得之―: •干理空調機可更包括有-溫度顯示器,以 所取得之參考溫度值TC、或顯示所 ^ π '亚又值Τ、或選擇式地顯示各個溫度傳送哭 15 >皿度偵測器所測得之遠端溫度心,供使用輕考。- 2者i本創作之_财為定頻式_機、或變頻 二:二頻式I缩機係直接控制I缩機之開或闕,而變 式機係直接控制壓縮機之運轉速率。 二ί:作之溫度傳送器可更具有-無線發射写, 一周機可更具有一無線接收器 溫度傳送器之溫度她所量咖二=微處理器。 過無線發射器無線傳送出去,以广而;見度值Τη,可透 後傳送至微處理器。因此,溫度;;收器接, 測到之遠端、、W声佶τ 、叩了…、、、泉傳輸其所量 頻、藍芽、或其他等效之無線式可為紅外線、射 20 M282125 此外,本創作之溫度傳送器可更具有一連接線,其並 連接至空調機之微處理器。因此,溫度傳送器可有線傳輸 其所量測到之遠端溫度值Τη給空調機之微處理器。 再者,上述之空調機可為單機一體式之空調機、或分 5 離式空調機。 【實施方式】 請參考圖1係本創作一較佳實施例之示意圖,在本實施 例中,本創作係應用在一般居家之客廳,其具有一分離式 10 空調機20、及二溫度傳送器10。如圖1所示,每一溫度傳送 器10係可隨意設置擺放於遠離空調機20外之遠端外部位 置。 請一併參考圖2係本創作一較佳實施例之系統架構 圖,每一溫度傳送器10具有一溫度偵測器1 1、及一藍芽無 15 線發射器12。溫度偵測器11係用以量測其所設置擺放的遠 端外部位置之遠端溫度值Τη,並透過藍芽無線發射器12將 遠端溫度值Τη傳送出去。 如圖2所示,空調機20具有一溫度設定器21、一溫度感 測器22、一微處理器23、一可用以顯示參考溫度值Tc(參考 20 溫度值Tc之定義容後詳述)之溫度顯示器24、一壓縮機25、 一無線接收器26、以及一回風口 27。其中,溫度設定器21 係提供使用者設定一目標溫度值T ;溫度感測器22係設置 於空調機20之回風口 27,並量測其回風溫度值T0 ;而微處 M282125 理器23係分別電連接至溫度設定器21、溫度感測器22、盔 線接收器26、及變頻式壓縮機25。 “、、 上述微處理器23藉由空調機2〇之無線接收哭%, 收每一溫度傳送器10所無線傳來之遠端溫度值二、及二接 5感測器22所量測到之回風溫度似〇,並依據:度 運算處理以獲得一參考溫度值^, 式進行 Σ +1 ,其中/\係指加權係數, η=1,2,3,···。 之加權係數可由使用者自行決定,若每—溫度傳送 器、及空調機回風口之溫声於 一 度均一視同仁,則加權係數皆相 °…本貫施例有二個遠端溫度值Τη,因此參考溫度值 j1' + j1 + τ ^ 1 + 1 + 1 。右使用者實際所處之位置較重要,則可 提高其所處位置之遠端溫度值7,之加權係數’例”,之加 權係數為2、乃之加權係數仍為1,mτ^1!Χι_+Γ2 + Γ〇。 15 處理器23並比對參考溫度值Tc與目標溫度值τ,進 運^出-相對應之控制訊號,藉以控制變頻式壓縮機災 . 一"一、'王顺微U之貫際運轉情形,4 ;,度控制裝置之目標溫度值丁係指在一容許, 而;内之溫度值。舉例說明,若目標溫度值T設定為25。 D、差值設定為G.5(當然也可為U、或其他數目),則 20 M282125 -25±〇·5⑶符合目標溫度值T之範圍。上述空調機2〇微處 理器23所輸出之相對應之控制訊號係比較參考溫度值Tc 與目標溫度值T兩者之差異,若參考溫度值^大於目標溫 度值T之上限,即大於25.5沱,表示使用者仍覺得太熱, 5須提而頻式壓縮機25之運轉速率,藉以降低室溫。反之, 若參考溫度值Tc小於目標溫度值τ之下限,即小於以. C,表示使用者覺得太冷,須降低變頻式壓縮機乃之運轉 速率藉以升同至,皿。若參考溫度值Tc剛好介於目標溫度 值τ之上、下限間’即介於24·5〜25·5μ,表示使用者覺 1〇得^溫正好,須維持變頻式壓縮機25之運轉速率,藉以維 持至溫。因此,本創作係以參考溫度值丁c作為空調機加溫 度控制之參考,而非如習用空調機以回風口之溫度作為溫 度控制之參考,可使空調機2〇所提供之溫度環境符合使用 者所需求之目標溫度,不會有讓使用者有過冷或不暖等感 15 覺不舒服之現象。 电請繼續參閱圖3係本創作另一較佳實施例之示意圖,本 貫施例中之二溫度傳送器_皆分別連接到—連接線Η, 其並透過連接線Π以連接至空調機20之微處理器23。因 此,微處理器23可有線接收每一溫度傳送器1〇所傳來之遠 20端溫度值Τη,也可達到上述控制變頻式壓縮機之運轉速 率,使空調機20所提供之溫度環境符合使用者實際之目標 溫度值之功能。 M282125 本創作所 而非僅限 上述實施例僅係4 了方便說明而舉例 主張之權利範圍自應以申請專利範 於上述實施例。 為率 【圖式簡單說明】 圖1係本創作—較佳實施例之示意圖。[New content] This invention creates an air conditioner temperature control device, which mainly has an air conditioner and at least one temperature transmitter. The temperature transmitter is located at a remote external location far from the air conditioner, and the temperature transmitter has a temperature detector for measuring the remote temperature value τη 'of the corresponding remote external location and transmits / jizl The temperature transmitter transmits the return temperature value. The air conditioner has a temperature setting state, a temperature sensor, a microprocessor, a compressor, and a return air outlet. Among them, the temperature setter sets a target temperature value T; the temperature sensor is set at the air return port of the air conditioner and measures its return air temperature value T0; the microprocessor is electrically connected to the temperature setter and the temperature sensor respectively. Tester, and compressor. And the microprocessor receives the remote temperature value τη sent by the temperature transmitter and the return air temperature value τ〇 measured by the temperature sensor, and performs arithmetic processing according to the following formula to obtain a reference temperature value Tc . Refers to the reference temperature value tc = r〃l_ +, Σ / + ι, and the medium weight coefficient, η = 1, 2, 3, ···. The microprocessor compares the reference temperature value Tc with the target temperature value T, and then outputs a corresponding control signal to control the operation of the compressor. Therefore, by using the temperature transmission σσ set away from the air conditioner, the author can transmit the exact temperature of the user's current location to the 20 M282125 microprocessor of the air conditioner. After the microprocessor calculates and compares it with the target temperature, And output a control signal to control the operation of the compressor of the air conditioner, which can make the temperature environment provided by the air conditioner meet the user's actual target temperature value, but it is uncomfortable for the user such as cold or not warm. θ 5 The above-mentioned microprocessor's arithmetic processing method, each weighting coefficient / settable: same or different. If each temperature transmitter and return air outlet of the air conditioner are equal, the weighting coefficient is the same i. If the user's actual location is important, the temperature of the location can be increased. =: Need: Make the microprocessor obtain ―: • Drying air conditioner may further include a temperature display to obtain the reference temperature value TC, or display the value ^ π 'sub-value τ, or alternatively Display the temperature of the far end of each temperature transmission cry 15 > dish temperature detector for the light test. -2 of the original _ is a fixed-frequency type machine or frequency conversion 2: The two-frequency type I shrink machine directly controls the opening or closing of the I shrink machine, and the variable machine directly controls the compressor's operating speed. Two: The temperature transmitter can have more-wireless transmission and writing, and one week machine can have a wireless receiver. The temperature of the transmitter is the same as that of the microprocessor. It is wirelessly transmitted through a wireless transmitter to a wide range; the visibility value Tη can be transmitted to the microprocessor after transmission. Therefore, the temperature; the receiver is connected, the far end of the measurement, W sound 佶 τ, …… ,,, the spring transmits its measured frequency, Bluetooth, or other equivalent wireless type can be infrared, shoot 20 M282125 In addition, the temperature transmitter of this creation can further have a connection line, which is also connected to the microprocessor of the air conditioner. Therefore, the temperature transmitter can transmit the measured remote temperature value Tn to the microprocessor of the air conditioner by wire. Furthermore, the above-mentioned air conditioner may be a stand-alone integrated air conditioner, or a split-type air conditioner. [Embodiment] Please refer to FIG. 1 for a schematic diagram of a preferred embodiment of the present invention. In this embodiment, the present invention is applied to a living room of a general household, which has a separate 10 air conditioner 20 and two temperature transmitters. 10. As shown in FIG. 1, each of the temperature transmitters 10 can be arbitrarily set and placed at a remote external position far from the air conditioner 20. Please refer to FIG. 2 together for a system architecture diagram of a preferred embodiment of the present invention. Each temperature transmitter 10 has a temperature detector 11 and a Bluetooth wireless transmitter 12. The temperature detector 11 is used to measure the remote temperature value Tn of the remote external position set by it, and transmits the remote temperature value Tn through the Bluetooth wireless transmitter 12. As shown in FIG. 2, the air conditioner 20 has a temperature setter 21, a temperature sensor 22, a microprocessor 23, and a reference temperature value Tc (refer to the definition of the temperature value Tc in 20 for details). A temperature display 24, a compressor 25, a wireless receiver 26, and a return air port 27. Among them, the temperature setter 21 is provided for the user to set a target temperature value T; the temperature sensor 22 is provided at the air return port 27 of the air conditioner 20 and measures its return air temperature value T0; and the micro-position M282125 controller 23 It is electrically connected to the temperature setter 21, the temperature sensor 22, the helmet line receiver 26, and the inverter compressor 25, respectively. "、 The above-mentioned microprocessor 23 measures the wireless reception rate of the air conditioner 20 wirelessly, and receives the remote temperature value two wirelessly transmitted by each temperature transmitter 10, and the temperature measured by two sensors 5 and 22. The return air temperature is similar to 0, and is calculated according to the degree calculation to obtain a reference temperature value ^, and the formula is Σ + 1, where / \ refers to the weighting coefficient, η = 1, 2, 3, .... The weighting coefficient It can be determined by the user. If the temperature sound of the temperature transmitter and the air outlet of the air conditioner are equal at one degree, the weighting coefficients are all °. This embodiment has two remote temperature values τη, so the reference temperature value j1 '+ j1 + τ ^ 1 + 1 + 1. The actual location of the right user is more important, so the far-end temperature value of the location where the user is located can be increased to 7. The weighting factor' example ', the weighting factor is 2 The weighting coefficient is still 1, mτ ^ 1! Χι + Γ2 + Γ〇. 15 The processor 23 also compares the reference temperature value Tc with the target temperature value τ, and enters the control signal corresponding to ^ -out to control the frequency-variable compressor disaster. I " I. 'Wang Shunwei U's continuous operation situation, 4 ;, the target temperature value of the degree control device is the temperature value within a tolerance, and; For example, if the target temperature value T is set to 25. D. The difference is set to G.5 (of course, it can also be U, or other numbers), then 20 M282125 -25 ± 0 · 5 (3) meets the range of the target temperature value T. The corresponding control signal output by the air conditioner 20 microprocessor 23 compares the difference between the reference temperature value Tc and the target temperature value T. If the reference temperature value ^ is greater than the upper limit of the target temperature value T, it is greater than 25.5 沱, It means that the user still feels too hot, 5 must mention the operating speed of the frequency compressor 25 to reduce the room temperature. Conversely, if the reference temperature value Tc is less than the lower limit of the target temperature value τ, that is, less than. C, it means that the user feels that it is too cold, and the operating speed of the inverter compressor must be reduced to reach the same temperature. If the reference temperature value Tc is just above and below the target temperature value τ, that is, between 24 · 5 ~ 25 · 5μ, it means that the user feels that the temperature is exactly 10, and the operating speed of the inverter compressor 25 must be maintained To keep it warm. Therefore, this creation uses the reference temperature value D as the reference for the air conditioner plus temperature control, instead of using the temperature of the return air port as the reference for temperature control in the conventional air conditioner, which can make the temperature environment provided by the air conditioner 20 meet the use The target temperature required by the user will not cause the user to feel uncomfortable such as being too cold or warm. Please continue to refer to FIG. 3 for a schematic diagram of another preferred embodiment of this creation. The two temperature transmitters in the present embodiment are all connected to a connection line Η, and are connected to the air conditioner 20 through the connection line Π. Of the microprocessor 23. Therefore, the microprocessor 23 can receive the far-end temperature value Tη transmitted by each temperature transmitter 10 by wire, and can also reach the above-mentioned control speed of the inverter compressor, so that the temperature environment provided by the air conditioner 20 conforms to Function of user's actual target temperature value. M282125 This author is not limited to the above-mentioned embodiments, which are just for convenience of explanation and examples. The scope of rights claimed should be based on the patent application for the above-mentioned embodiments. For the sake of simplicity [Schematic description] Figure 1 is a schematic diagram of the present invention-the preferred embodiment.
圖2係本創作—較佳實施例之系統架構圖。 圖3係本創作另—較佳實施例之示意圖。 10【主要元件符號說明】 10溫度傳送器 13連接線 2 2溫度感測器 25壓縮機 11溫度偵測器 20空調機 23微處理器 26無線接收器 12無線發射器 21溫度設定器 24溫度顯示器 27回風口FIG. 2 is a system architecture diagram of the present invention-the preferred embodiment. FIG. 3 is a schematic diagram of another preferred embodiment of the present invention. 10 [Description of main component symbols] 10 Temperature transmitter 13 Cable 2 2 Temperature sensor 25 Compressor 11 Temperature detector 20 Air conditioner 23 Microprocessor 26 Wireless receiver 12 Wireless transmitter 21 Temperature setter 24 Temperature display 27 return air outlet
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