M418514 五、新型說明: f新型所屬之技術領域】 本創作係有關於一種散熱機櫃,尤其是—種具 全數位監測功能之可分區溫控的機櫃。 【先前技術】 以往電信機房、電力機房、通訊設備機… ,々寸'寻,裡面 放置許多設備,而設備運糾,機雜需轉—定的溫戶, 因此機房簡會增設加熱H或者散熱器來控賴房的^ ’ 度’且加熱器或者散熱器通常為24小時不間斷的 當的耗電。 年目 習知技術中之-機櫃,該機櫃呈長方形體,内有 戶空間;該機_增—顧口,™有-饰;一風 扇,該風扇連結於該機櫃的排風口。而上述機樞内 數台機器’而機純咖使时產生熱能,並由_側邊今 熱,而該機櫃的排風σ設計於上方,但在該機櫃的下方並: 2 ’力編_時’緣馳氣均,導致機 紙度上升,造成熱當或系統異f。另外, :中’該風扇為24小時全天候敌動,如此-作法相: 電,且不環保。 祁田的耗 導致設備树的^可有政解決系統主機因為機櫃内過熱而 風扇的啟:必能降低企業損失,且如能有效控制 … 、S既可改善賴㈣部的溫度,且能節約能 3 源’必為現在綠能當道所應配合的潮流趨勢 【新型内容】 所以本創作的目的係為解決上述習知技術上 的問題,本創作中提出一種具全數位監測功能之可分 區溫控的機櫃,其中該機櫃主要設計為改善排風方式,已達 到櫃體内更加的散熱效果’該機櫃的排風口設計於側邊,而 進風口設計於上下兩端,可使得冷風進入時,可與該機櫃内 的熱氣達到對流的效果’且機櫃側邊的排風口可即時將熱空 氣排出’不易產生熱氣渦流’使得機櫃内溫度穩定,不易造 成熱¥或糸統異常,另外’該風扇模組由控制器所控制,必 須當機櫃内的溫度大於設定值時,該控制器才會啟動該風扇 模組進行排風,該機櫃内部數個散熱區域,由不同的風扇模 組及溫度偵測器管轄;可以視需要只對於溫度過高的區域, 啟動該風扇模組,對於溫度正常的區域則不啟動,此一設計 對於中南緯度的區域可以有效的節省能源。 為達到上述目的本創作中提出一種具全數位監 測功能之可分區溫控的機櫃,包含:一機櫃,該機櫃内有_ 谷置空間;該機櫃的一側設有—抽風口;相對立的另一側設 有數個排風口;數個風扇模組,各該風扇模組為至少一風扇 所構成,各風扇模組配置之方式分布於該機櫃的抽風口;各 風扇模組啟動時可在對邊的抽風口及該風扇模組之間形成 一空氣對流之流道,而在此流道形成對應的散熱區域;所以 此數個風扇模組將該機櫃内部形成數個散熱區域;數個溫度 積測器’各溫度侧魏置在職之健區域,即每-散熱 區域配置有-風扇模組及—溫度伽H溫賴測器用於 偵測該散熱區域的溫度,並將所偵測的溫度外傳;一控制 器,該控制器連接所有的溫度伽J器及風扇乾组,該控制器 .接收來自各溫度偵測器的數據,並由該數據決定是否啟動該 風扇;需啟細送-訊制賴賴組,啟觸風扇模組; 反之,當溫度過低時,也可以令該風扇模組停止運轉;一顯 示器,該顯示器連結該控制器,接受該控制器所傳遞之訊 號,並顯示於該顯示器上,以令控制人員可以隨時觀看監控 數據;一輸出輸入裝置(1/0),該輸出輸入裝置( 〇)連結該顯示器,控制人員可植入溫度數據,當溫度超過 該值時,則啟動風扇。 由下文的說明可更進一步瞭解本創作的特徵及其優 點,閱Ί買時並請參考附圖。 【實施方式】 热謹就本案的結構組成,及所能產生的功效與優點,配 合圖式,舉本案之一較佳實施例詳細說明如下,但必須了解 下列說明僅是本麟之—實施例,並㈣於關本創做的範 圍。 請參考圖一至圖三所示,顯示本創作之具全數位監測功 能之可分區溫控的機櫃,包含下列元件: M418514 一_ 1,該機櫃呈長方形體,内有—容置空間 櫃的一側設有一抽風口.相 機 該此’相對立的另-側設有數個排風口, 各^ * σΐ㈣之分佈。本創作中該機_部 Γ電腦設備,如伺服器、域...等等;電信設備如ΞΓ 0°·...,電力设備如斷路器...等等。M418514 V. New description: f new technology field] This creation department is about a heat dissipation cabinet, especially a cabinet with partitionable temperature control with full digital monitoring function. [Prior Art] In the past, the telecommunications equipment room, the electric computer room, the communication equipment machine..., the inch inch 'see, there are many equipment placed inside, and the equipment is tuned, the machine needs to be transferred to the fixed temperature, so the machine room will add heating H or heat. The device is used to control the 'degree' of the room and the heater or radiator is usually 24 hours of uninterrupted power consumption. In the conventional technology, the cabinet has a rectangular body with a user space therein; the machine has a _ _ _ mouth, TM has a decoration; a fan, the fan is connected to the vent of the cabinet. And several machines in the above-mentioned armatures generate heat energy, and the heat is generated by the side of the machine, and the exhaust σ of the cabinet is designed above, but below the cabinet and: 2 '力编_ At the time of 'the edge of the air, the machine paper rises, causing heat or system f. In addition, the middle of the fan is a 24 hour all-weather enemy, so - the practice phase: electricity, and not environmentally friendly. The consumption of Putian leads to the equipment tree. The system can solve the problem because the fan in the cabinet is overheated and the fan is turned on: it can reduce the loss of the enterprise, and if it can effectively control..., S can improve the temperature of the (four) part and save The energy source 3 must be the trend that should be matched by the current green energy. [New content] Therefore, the purpose of this creation is to solve the above-mentioned conventional technical problems. In this creation, a partitionable temperature with full digital monitoring function is proposed. The control cabinet, which is mainly designed to improve the air exhaust mode, has achieved more heat dissipation effect in the cabinet. The air outlet of the cabinet is designed on the side, and the air inlet is designed on the upper and lower ends, so that when the cold air enters, It can achieve the convection effect with the hot air in the cabinet', and the air outlet on the side of the cabinet can immediately discharge the hot air, which is not easy to generate hot air vortex, so that the temperature inside the cabinet is stable, and it is not easy to cause abnormal heat or sputum, and the fan The module is controlled by the controller. When the temperature in the cabinet is greater than the set value, the controller will start the fan module to exhaust the air. The inside of the cabinet Several heat dissipation areas are governed by different fan modules and temperature detectors; the fan module can be activated only for areas with excessive temperature as needed, and not for areas with normal temperature. This design is for mid-south latitude The area can save energy. In order to achieve the above objectives, a partitionable temperature-controlled cabinet with full digital monitoring function is proposed in the present invention, which comprises: a cabinet having a _ valley space; one side of the cabinet is provided with an exhaust vent; The other side is provided with a plurality of air outlets; a plurality of fan modules, each of which is formed by at least one fan, and each fan module is disposed in a manner of being distributed to an air outlet of the cabinet; An air convection flow path is formed between the opposite side air outlet and the fan module, and a corresponding heat dissipation area is formed in the flow path; therefore, the plurality of fan modules form a plurality of heat dissipation areas inside the cabinet; The temperature accumulator's temperature side is placed in the active area, that is, each-heating area is equipped with a fan module and a temperature gamma H temperature detector for detecting the temperature of the heat dissipating area, and detecting the detected Temperature transfer; a controller, the controller is connected to all the temperature gamma and the fan dry group, the controller receives the data from each temperature detector, and the data determines whether to start the fan; - Information system Lay group, the fan module is activated; conversely, when the temperature is too low, the fan module can also be stopped; a display, the display is connected to the controller, accepts the signal transmitted by the controller, and is displayed on the On the display, so that the control personnel can watch the monitoring data at any time; an output input device (1/0), the output input device (〇) is connected to the display, and the control personnel can implant temperature data, when the temperature exceeds the value, then Start the fan. The features and advantages of this creation can be further understood by the following description. Please refer to the attached drawings when buying. [Embodiment] The structure of the case, and the functions and advantages that can be produced, together with the drawings, a preferred embodiment of the present invention is described in detail below, but it must be understood that the following description is only the embodiment of the present invention. And (4) the scope of the creation of Guan. Please refer to Figure 1 to Figure 3 to show the partitionable temperature-controlled cabinet with full digital monitoring function, including the following components: M418514 A _ 1, the cabinet is a rectangular body with a compartment for accommodating space There is an air vent on the side. The camera has a plurality of air outlets on the opposite side of each other, and the distribution of each of ^ * σ ΐ (4). In this creation, the machine _ Γ computer equipment, such as servers, domains, etc.; telecommunications equipment such as ΞΓ 0 ° · ..., power equipment such as circuit breakers ... and so on.
數個風雜組2 ’各賴顧組為至少—風扇所構成, :以二顆風扇為例,各風减組以縱向配置之方式分布於 肩櫃的抽風口的對立邊上;各風扇模組啟動時可在對邊的 抽,口及觀顧組之間職―流道,而在此流道形成對應 的散熱區域。所以此數個風扇·_機_部形成數個散' 熱區域。 數個溫度_|| 3,各溫度偵湘配置在對應之散熱區 域,即每一散熱區域配置有一風扇模組及一溫度偵測器;該 溫度偵測器用於偵測該散熱區域的溫度,並將所偵測的溫度 外傳。A plurality of wind group 2' each group is composed of at least a fan, and two fans are taken as an example, and each wind reduction group is distributed in a longitudinal arrangement on opposite sides of the air outlet of the shoulder cabinet; each fan module When the group is started, it can be in the opposite side of the pumping, mouth and viewing group, and the corresponding heat dissipation area is formed in the flow path. Therefore, the plurality of fan·_machine_ sections form a plurality of scattered 'hot areas. a plurality of temperatures _|| 3, each temperature is arranged in a corresponding heat dissipation area, that is, each heat dissipation area is provided with a fan module and a temperature detector; the temperature detector is used for detecting the temperature of the heat dissipation area, And pass the detected temperature to the outside.
控制器4,該控制為連接所有的溫度偵測器及風扇模 組,該控制器接收來自各溫度偵測器的數據,並由該數據決 定是否啟動該風扇;如需啟動則送一訊號到該風扇模組,啟 動泫風扇模組。反之,當溫度過低時,也可以另該風扇模組 停止運轉。 一顯示器5,該顯示器連結該控制器,接受該控制器所 傳遞之訊號,並顯示於該顯示器上,以令控制人員可以隨時 觀看監控數據。 6 一輸出輪人|置(! /Q ) 6,該輸出輸入裝 〇)連結軸示n,㈣人_认溫度數據了 過該丁值時,職細Li。 /皿度超 本創作之該主要設計為改善觀方式,已達到更加 的散熱效果’频櫃的排風口設計於側邊,吨風口設計於 上下兩端’可使得冷風進人時,可與該機櫃㈣熱氣達到對 流的效果’且機櫃側邊的排風口可即時將熱空氣排出,不易 產生熱氣雌,使得機_溫度敎,Μ造賴當或系統 異常。另外,該風频組由控制器所控制,必須當機樞内的 溫度大於設定值時,該控制器才會啟動該風扇模組進行排 風,如此-來’能夠節約不必要的能源浪費,為現在綠能當 道的潮流趨勢。再者’本創作中將該機櫃内部數個散熱區 域,由不同的風扇模組及溫度偵測器管轄。可以視需要只對 於溫度過高的區域,啟動該風扇模組,對於溫度正常的區域 則不啟動’此-設t情於巾高緯度的區域可以有效的節省能 源。 再者因為本案之溫度模組可對應控制風扇模組之獨立 δ又δ十,故可以利用此特性設計成設定第一溫度溫度偵測設定 第一階溫度去啟動散熱風扇,如散熱狀況依然未改善,可以 在第二組溫度偵測器設定第二階去啟動風扇加強散熱能 力,以此類推…. 請參考圖三所示,本創作中可透過一通訊傳輸 (Controller Area Network(CANbus))7 連結數個機櫃 1 到一 主控室8,可讓控制人員可明間監控不同親的訊息,形 成一種中央控制的狀態。 本創作中另-實施例如圖四所示,财該風扇的位置改 成-加熱器9 ’其於元件朝於第—實施例,在本實施例中 便不多加贅述’其目的在於主要達到加熱效果,本創作中將 該機櫃内雜舰域,由不_加熱狀溫度偵測器管 轄。可以視f要只對於溫度過低的區域,啟動該加熱器,對 於溫度正常的區域則不啟動。 綜上所述,本案人性化之體貼設計,相當符合實際需 求。其具體改進現有缺失,相較於習知技術明顯具有突破性 之進步優點,確實具有功效之增進,且非易於達成。本案未 曾公開或揭餘_與國狀文獻财場上,已符合專利法 規定。 上列詳細说明係針對本創作之一可行實施例之具體說 明’惟該實施例並非用以限制本創作之專利範圍,凡未脫離 本創作技藝精神所為之等效實施或變更,均應包含於本案之 專利範圍中。 M418514 【圖式簡單說明】 圖一顯示本創作之元件示意圖。 圖二顯示本創作之電路圖。 圖三顯示本創作之另一實施例之關係圖。 【主要元件符號說明】 1 機櫃 2 風扇模組 3 溫度偵測器 4 控制器 5 顯示器 6 輸出輸入裝置(I/O) 7 通訊傳輸 8 主控室Controller 4, the control is to connect all the temperature detectors and the fan module, the controller receives the data from each temperature detector, and the data determines whether to start the fan; if it needs to start, send a signal to The fan module activates a fan module. Conversely, when the temperature is too low, the fan module can be stopped. A display 5 is coupled to the controller to receive signals transmitted by the controller and displayed on the display so that the control personnel can view the monitoring data at any time. 6 One output wheel person|Set (! /Q) 6, the output input device 〇) The connection axis shows n, (4) The person_recognizes the temperature data. / The main design of the dish is to improve the view mode, and has achieved a more heat-dissipating effect. The exhaust port of the frequency cabinet is designed on the side, and the vents are designed on the upper and lower ends to make the cold wind enter the place. The cabinet (4) the hot gas reaches the convection effect' and the air outlet on the side of the cabinet can immediately discharge the hot air, which is not easy to generate hot air, making the machine _ temperature 敎, manufacturing or system abnormality. In addition, the wind frequency group is controlled by the controller, and the controller must start the fan module to exhaust the air when the temperature in the armature is greater than the set value, so that 'to save unnecessary energy waste, It is the trend of green energy now. Furthermore, in this creation, several heat dissipation areas inside the cabinet are governed by different fan modules and temperature detectors. The fan module can be activated only for areas with excessive temperature as needed, and not for areas with normal temperature. This can effectively save energy in areas with high latitudes. Furthermore, since the temperature module of the present case can control the independent δ and δ10 of the fan module, the characteristic can be designed to set the first temperature and temperature to set the first-order temperature to start the cooling fan, for example, the heat dissipation condition is still not Improvement, you can set the second stage in the second group of temperature detectors to start the fan to enhance the heat dissipation, and so on.... Please refer to Figure 3, this communication can be transmitted through a communication (Controller Area Network (CANbus)) 7 Connecting several cabinets 1 to one main control room 8 allows the controller to monitor the messages of different parents to form a central control state. In another embodiment of the present invention, as shown in FIG. 4, the position of the fan is changed to a heater 9', and the component is directed to the first embodiment. In the present embodiment, the description is not repeated. Effect, in this creation, the miscellaneous ship domain in the cabinet is governed by a non-heating temperature detector. It is possible to activate the heater only for areas where the temperature is too low, and not for areas with normal temperature. In summary, the humanized design of this case is quite in line with actual needs. The specific improvement of the existing defects, compared with the obvious advancement advantages of the prior art, does have an improvement in efficacy and is not easy to achieve. The case has not been disclosed or disclosed _ and the national documentary literature has been in compliance with the provisions of the Patent Law. The detailed description above is a detailed description of one of the possible embodiments of the present invention. The present invention is not intended to limit the scope of the present invention. Any equivalent implementation or modification that is not departing from the spirit of the present invention should be included in The patent scope of this case. M418514 [Simple description of the diagram] Figure 1 shows the schematic diagram of the components of this creation. Figure 2 shows the circuit diagram of this creation. Figure 3 shows a diagram of another embodiment of the present creation. [Main component symbol description] 1 Cabinet 2 Fan module 3 Temperature detector 4 Controller 5 Display 6 Output input device (I/O) 7 Communication transmission 8 Main control room