M428579 五、新型說明: 【新型所屬之技術領域】 本創作係與動力分電財關,制 電盤及其分路監控魏。 力刀 【先前技術】 层内^ ΐί蚊—種將大電流分錢引導接出之電流至薇 ======= =====至麵斷料,以贿料t用: :各•斷:;:==至::= ==ΞΞ: 二,的動力分電盤缺乏對重要組件如匯流排本 功能,當發生異常狀況時, 么t 月& :決本先==r題分電盤及其分路監控功 3 【新型内容】 分路於提供l式動力分電盤,具有多 插入式動力分電盤包含匯流排主體、溫度感測單元及人機 "面。匯流排主體設置於殼體内。匯流排主體包含插置空間。 感測單元設置於純翻,其巾溫度❹桿元分別對應匯 机排主體之插置空間設置。溫度感測單元可分別得到溫度資 訊’並將溫㈣贿過-傳輸介面輸出。人齡面設置於殼體 上,人機介面可自傳齡面接收溫錢測單元之溫錢訊並加 以顯示。 關於本創作之優點與精神可以藉由以下的發明詳述及 所附圖式得到進一步的瞭解。 【實施方式】 圖1A所示為本創作插入式動力分電盤之外觀示意圖。如 圖1A所示,插入式動力分電盤100之殼體102具有左右各一 相門104,該相門1〇4上設有人機介面400 ’使用者可於人機 介面400直接觀察殼體1〇2内各用電設備的資訊。請同時參 考圖1B,圖1B所示為本創作插入式動力分電盤之右侧視圖。 插入式動力分電盤1〇〇之殼體1〇2内設置中門1〇6,中門1〇6 一方面可避免外來異物誤入插入式動力分電盤100内部而造 成設備故障,另一方面可防止使用者誤觸插入式動力分電盤 100内部的用電設備。 便說創作插入式動力分電盤之正6視圖。為方 係,圖X力77電盤内部_電設備及其連接關M428579 V. New description: [New technology field] This creation department is related to power distribution and electricity, and the power supply panel and its branch monitoring. Force Knife [Prior Art] In the layer ^ ΐ 蚊 mosquito - the kind of current will be led by the large current money to the Wei ======= ===== to the face to break the material, to use bribes t: : • Break:;:== to::===ΞΞ: Second, the power distribution board lacks the function of important components such as busbars. When an abnormal situation occurs, what is the month of the month and the following: ==r The sub-distribution panel and its shunt monitoring function 3 [New content] The shunt is provided with a type l power distribution board, and the multi-plug-in power distribution board includes a bus bar main body, a temperature sensing unit and a human machine. The busbar body is disposed in the housing. The main body of the bus bar contains the insertion space. The sensing unit is disposed in a purely turned, and the towel temperature mast element is respectively disposed corresponding to the insertion space of the main body of the hoistway. The temperature sensing unit can separately obtain the temperature information and send the temperature to the transmission interface. The human body surface is arranged on the housing, and the human-machine interface can receive the warm money signal of the warm money measuring unit from the self-receiving age surface and display it. The advantages and spirit of the present invention can be further understood by the following detailed description of the invention and the accompanying drawings. [Embodiment] FIG. 1A is a schematic view showing the appearance of the inventive plug-in power distribution board. As shown in FIG. 1A, the housing 102 of the plug-in power distribution panel 100 has a left and right phase door 104. The phase door 1〇4 is provided with a human-machine interface 400'. The user can directly observe the housing in the human-machine interface 400. Information on the electrical equipment in 1〇2. Please refer to FIG. 1B at the same time. FIG. 1B is a right side view of the inventive plug-in power distribution board. The middle door 1〇6 is disposed in the casing 1〇2 of the plug-in power distribution plate 1 , and the middle door 1〇6 can prevent foreign objects from being mistakenly inserted into the plug-in power distribution board 100, thereby causing equipment failure. On the one hand, the user can be prevented from accidentally touching the electric equipment inside the plug-in power distribution board 100. It is said that the positive 6 view of the plug-in power distribution board is created. For the system, Figure X force 77 electric disk internal _ electrical equipment and its connection
領2C Γ未績不中門1〇6 ’中門1〇6的位置可參照圖2B 主體L 2A所示,插人式動力分電盤1㈤包含匯流排 2B、,你’匯流排主體2〇◦包含複數列插置空間2〇2(參見圖 ,置空間202可供數個分路裝置5〇 =包含分路斷路議、分路模鱗比流器一Collar 2C Γ不不不中门1〇6 'The position of the middle door 1〇6 can be as shown in Figure 2B main body L 2A, the plug-in power distribution board 1 (5) contains the bus bar 2B, you' bus body 2〇 ◦ contains multiple columns of interpolated space 2〇2 (see figure, space 202 can be used for several branching devices 5〇=including shunt disconnection, split mode scales
In表5°6。其中,插人式動力分電盤1QQ内包含比流裝置 及主斷路ϋ 7QQ,比流裝置咖設置於㈣排主體2〇〇 ”斷路器7GQ之間。比流裝置_將供電設細未緣示) '電流調變為設備適用的電流大小後,傳輸至集合式電表 ,透過傳輸介面4Q2將資訊傳輸至人機介面400。當廠房 内需要擴増設備時,設備可藉由分路裝置5〇〇自匯流排主體 輸送所需電力,藉此插入式動力分電盤⑽,廠房内的空 間配置可以更加靈活。 所述集合式電表506設置於分路模鑄比流器模組5〇4 上’集合式電表咖將分路裝置500之電力資訊透過傳輸介 面402傳送至人機介面·,該電力資訊例如電壓、電流等。 在此實施财’傳輪介面4Q2 _防伽,用以將分路裝置 500之電力資訊並接後傳輸至人機介面4〇〇 ,藉由防明5可 簡化線路布設,也可省略多餘丨〇設備而直接透過與人 機介面400連接。 此外,分路斷路H 5q2具有底部5Q8,藉由底部5〇8與 插孔8㈤相互卡合。插孔8⑻的數量可視需求而增減,如圖 2A所示,插孔800的數量及位置可因應不同大小的分路裝置 500來設計。另一方面,分路斷路器5〇2與插置空間咖插 接時’使用者不會直接碰觸到插置空間2〇2 N之導體(圖未繪 示)’因此使用者執行分路裝置5〇〇拆裝作業時,不需關閉匯 流排主體200之電力*可直接進行拆裝作業。藉此,本創作 之插入式動力分電盤100不僅方便擴充,且容易拆裝,可有 效提高作業效率並兼顧作業安全。 如圖2A所示,插入式動力分電盤1〇◦内布設複數個溫度 感測單元300 ’在本實施例中,匯流排主體2〇〇之内部設置七 個溫度感測單元300’這些溫度感測單元300分別對應匯流排 主體200之插置空間202設置,詳言之,溫度感測單元3〇〇 係設置於插置空間202内的導體之一側,以量測傳輸至匯流 排主體200電流所造成的溫度變化。此外,如圖2a所示,比 流裝置600之一側設置有溫度感測單元300,且主斷路器7〇〇 之一側亦設置有溫度感測單元300,在其他實施例中,溫度感 測單元300可選擇設置於主斷路器700與比流襄置6〇〇之 間’即主斷路器700與比流裝置600的連接線路之—側,以 量測自供電設備傳輸至比流裝置600的電流是否造成過熱。 在其他實施例中,溫度感測單元300之位置及數量可進一步 視設備數i錄人式動力分電盤的規格作調整。 溫度感測單元30Q除設置於上述位置外,可進—步設置 於分路裝置500的各連誠,例如,在分路裝置5qq =置 空間202插接之-側設置有溫度感測單元3㈤即溫度感測單 兀300設置在分路裳置5〇〇與插置空間2〇2 θ導體連接處之 -側,以量測該處的m否造成過熱。在分路裝置5〇〇中, 分路模鑄比流器模組504與分路斷路器5Q2連接,分路斷路 器502與分路模鑄比流器模組5〇4連接之一側設置有溫度感 測單元300,以量測自分路斷路器5〇2傳輸至分路模禱比流器 模組504㈣流是否造成過熱。另外,在分路斷路器5〇2之 該底部508係設置有溫度感測單元3QQ,以量測底部5〇8是 否有不正常的漏電流而造成過熱。 ,-上述之溫度感測單元3〇0可進一步設定警報溫度,當某 1度感測單元300所量測到溫度高於警報溫度,則該溫度 感測單元300將輸出警報訊號至人機介面4〇〇,以警示使用者 執行相關作業程序。如前所述,溫度感測單元3〇〇之傳輸介 面402採用RS485 ’用以將溫度感測單元300的溫度資訊傳 輸至人機介面400。在其他實施例中,溫度感測單元3〇〇亦可 採用其他形式的傳輸介面402 ’例如採用無線傳輸的方式與人 機介面400連接。透過人機介面4〇〇顯示電力資訊及溫度資 訊’以實現多分路裝置同時監控之目的,讓使用者及早因應故 障或異常事件。In Table 5 ° 6. Among them, the plug-in power distribution board 1QQ includes a flow device and a main breaker ϋ 7QQ, and the flow device is disposed between the (four) row main body 2 〇〇 "breaker 7GQ. The flow device _ will set the power supply Show) 'The current is adjusted to the current level of the device, and then transmitted to the collective meter, and the information is transmitted to the human-machine interface 400 through the transmission interface 4Q2. When the equipment needs to be expanded, the device can be used by the branching device 5 The power supply from the main body of the busbar is transmitted by the plug-in power distribution board (10), and the space arrangement in the plant can be more flexible. The integrated electric meter 506 is disposed in the split die-casting flow module 5〇4 The 'aggregate meter' transmits the power information of the branching device 500 to the human-machine interface through the transmission interface 402, such as voltage, current, etc. Here, the implementation of the money interface 4Q2 _ anti-gamma is used to The power information of the branching device 500 is connected and transmitted to the human-machine interface 4, and the circuit layout can be simplified by the anti-Ming 5, and the redundant device can be omitted and directly connected to the human-machine interface 400. Open circuit H 5q2 has a bottom The portion 5Q8 is engaged with the jack 8 (5) by the bottom 5〇8. The number of the jacks 8(8) can be increased or decreased as needed, as shown in FIG. 2A, the number and position of the jacks 800 can be adapted to different sizes of the shunt device 500. On the other hand, when the shunt breaker 5〇2 is plugged into the interposer space, the user does not directly touch the conductor of the interposer space 2〇2 N (not shown), so the user When the splitting device 5 is disassembled and assembled, the power of the bus bar main body 200 is not required to be turned off*, and the disassembly and assembly work can be directly performed. Thereby, the plug-in power distribution board 100 of the present invention is not only convenient for expansion, but also easy to disassemble and assemble. As shown in FIG. 2A, a plurality of temperature sensing units 300 are disposed in the plug-in power distribution tray 1'. In this embodiment, the interior of the busbar body 2 is disposed. The temperature sensing unit 300 is disposed corresponding to the insertion space 202 of the bus bar body 200. In detail, the temperature sensing unit 3 is disposed in the conductor in the insertion space 202. One side is measured and transmitted to the busbar main body 20 In addition, as shown in FIG. 2a, a temperature sensing unit 300 is disposed on one side of the flow device 600, and a temperature sensing unit 300 is also disposed on one side of the main circuit breaker 7 In other embodiments, the temperature sensing unit 300 can be selectively disposed between the main breaker 700 and the flow device 6〇〇, ie, the side of the connection line between the main breaker 700 and the flow device 600, for measurement. Whether the current transmitted from the power supply device to the flow device 600 causes overheating. In other embodiments, the position and number of the temperature sensing unit 300 can be further adjusted according to the specifications of the device number of the human power distribution board. In addition to being disposed at the above position, the measuring unit 30Q can be further disposed in each connection of the branching device 500. For example, the temperature sensing unit 3 (5) is disposed on the side where the branching device 5qq = the space 202 is inserted. The sensing unit 300 is disposed on the side of the junction of the splitting slot 5 〇〇 and the insertion space 2 〇 2 θ conductor to measure whether the m at the location causes overheating. In the branching device 5〇〇, the split die-casting comparator module 504 is connected to the shunt breaker 5Q2, and the shunt breaker 502 is connected to the shunt die-casting comparator module 5〇4. There is a temperature sensing unit 300 for measuring whether the flow from the shunt breaker 5〇2 to the shunt mode comparator module 504(4) causes overheating. Further, a temperature sensing unit 3QQ is provided at the bottom 508 of the shunt breaker 5〇2 to measure whether the bottom 5〇8 has an abnormal leakage current and cause overheating. The temperature sensing unit 300 can further set the alarm temperature. When the temperature measured by the 1 degree sensing unit 300 is higher than the alarm temperature, the temperature sensing unit 300 outputs an alarm signal to the human machine interface. 4〇〇 to alert the user to perform related operating procedures. As described above, the transmission interface 402 of the temperature sensing unit 3 uses RS485' to transmit the temperature information of the temperature sensing unit 300 to the human interface 400. In other embodiments, the temperature sensing unit 3 can also be connected to the human interface 400 by other forms of the transmission interface 402', for example, by wireless transmission. The power information and temperature information are displayed through the human-machine interface 4 to achieve simultaneous monitoring of the multi-drop device, allowing the user to respond to early failures or abnormal events.
【圖式簡單說明】 圖1A係本創作插入式動力分電盤之外觀示意圖; 圖1B係本創作插入式動力分電盤之右侧視圖; 圖1C係本創作插入式動力分電盤之上視圖; 圖2A係本創作插入式動力分電盤之正面視圖; 圖2B係本創作插入式動力分電盤之另一右側視圖; 圖2C係本創作插入式動力分電盤之左側視圖。 【主要元件符號說明】 100插入式動力分電盤 400人機介面 102殼體 402傳輪介面 104箱門 500分路裝置 106中門 502分路斷路器 200匯流排主體 202插置空間 300溫度感測單元 504分路模鑄比流器模組 506集合式電表 508底座 M428579 600比流裝置 800插孔 700主斷路器BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1A is a schematic view showing the appearance of the power-in plug-in power distribution board of the present invention; Fig. 1B is a right side view of the power-in plug-in power distribution board of the present invention; Figure 2A is a front view of the inventive plug-in power distribution panel; Figure 2B is another right side view of the inventive plug-in power distribution panel; Figure 2C is a left side view of the inventive plug-in power distribution panel. [Main component symbol description] 100 plug-in power distribution board 400 human interface 102 housing 402 transmission interface 104 box door 500 branch device 106 middle door 502 branch circuit breaker 200 bus bar main body 202 insertion space 300 temperature sense Measuring unit 504 shunt molding flow ratio module 506 collective electric meter 508 base M428579 600 flow device 800 jack 700 main circuit breaker