M397648 五、新型說明: 【新型所屬之技術領域】 [0001] 本創作係關於一種分散式之多功能節能控制系統, 特指一種用多種時間排程控制方式以避免不必要用電, 可適時降低尖峰用電及流動電費,以達到節能目的之控 制系統。 【先前技術】 [0002] 近年來地球暖化問題嚴重,主要原因之一是來自於 用電量的逐漸提升,而為了達到節能減碳之目的,因此 在工業廠房、大型建物等等大量用電之場合中,應該要 設置以節能相關系統方可有效監控及管制電力之使用, 以期盡量地減少無謂之電能耗費。 [0003] 而以工業用廠房為例,為了要減少過度之電力耗費 ,電力廠多半會與工業用廠房訂立一契約容量值,當工 業用廠房超過該契約容量值將必須額外支付一定之超支 電費,如此之作法對於整個國家之電量控管來說具有相 當之益處,而工業用廠房要如何於自身之體系下避免内 部設備運作中之用電量超支更是一門重要的功夫,而目 前現有技術中卻少見有能夠有效且合理作節能控制以避 免電量耗費大於該契約容量之節能系統,故綜觀前所述 ,本創作之創作人思索並設計一種分散式之多功能節能 控制系統,以期針對現有技術之缺失加以改善,進而增 進產業上之實施利用。 表單編號A0101 第3頁/共13頁 [0004] [0004] [0005] [0006] [0007] 【新型内容】 有鑒於前述之現有技術的不足點,本創作係設計一 種於結構創新之分散式之多功能節能控制系統以期克服 現有技術之難點。 為達到上述目的,本創作所採用的技術手段為設計 一種分散式之多功能節能控制系統,其包含: 一處理主機,其為一具備邏輯運算能力之電子裝置 ;一電力監控器,其透過一網路連接至該處理主機,且 該電力監控器具備有複數個電錶,且透過各該電錶監控 電力之消耗;及一節能控制中樞裝置,其透過一網路連 接至該處理主機,且該節能控制中樞裝置電性連接至複 «kl /rrt /.U ΙΛ> A— ·"* H 上 AA* AU I» f一 Ijl 、士 ία -»r Λ _U v_ 双1E)即供?旦,丘分έ亥即板電,ϋ 接王儆仿丫 < 一 溫控用之作業設備,該些作業設備進一步於分配後分別 連接至該些電錶上,以讓該些電錶可測量其所消耗之電 量。 其中,該節能模組進一步包含一電磁接觸器(或固態 繼電器)、一感溫裝置、一比流器及一節能控制器;其中 ,該電磁接觸器(或固態繼電器)電性連接於該些作業設 備,該電磁接觸器(或固態繼電器)可受驅控而選擇性控 制該作業設備開啟或關閉;其中該感溫裝置用以測量一 對應之該作業設備處之室溫;其中該比流器用以測量一 對應之該作業設備之電流;其中該節能控制器電性連接 至該節能控制中樞裝置,且該節能控制器進一步包含一 設備控制單元、一溫度量測單元及一電流量測單元;其 中該設備控制單元電性連接至該電磁接觸器以發出訊號 表單編號A0101 第4頁/共13頁 M397648 給予該電磁接觸器(或固態繼電器)並控制一對應之該作 業設備之開啟或關閉;其中該溫度量測單元電性連接至 該感溫裝置以傳遞其所測量之溫度;其中該電流量測單 元電性連接至該比流器,以傳遞該比流器所量測之電流 量;其中,該感溫裝置為一感溫棒。 [0008] 其中,該電力監控器可將電錶所測得之耗電量資訊 傳遞至該節能控制中樞裝置,而後該節能控制中樞裝置 可根據該耗電量資訊分析並將必須要執行的命令傳送給 各該節能控制器,以針對各作業設備作設備的節能控制 ;且其中,各該節能控制器中可透過溫度量測單元讀取 溫度,而後透過電流量測單元讀取電流,接著再透過設 備控制單元控制該些受控之作業設備,該控制手段為利 用該電磁接觸器作斷路、通路設備卸/投載。 [0009] 其中,該處理主機為一具計算及邏輯判斷功能之控 制器;其中,該電錶數量至多為10個,且該節能模組數 量至多為30個;且其中,該作業設備為一電力設備。 [0010] 而該分散式之多功能節能控制系統於設計上提供一 有效的整合功能,以管控複數個作業設備之用電,且於 電量超量時或者是室溫達到一定值時,可輪流驅控各作 業設備使其暫時呈現斷路,並於一段時間後或者是溫度 超過一定值後再次驅動該作業設備使其呈現通路,以有 效率地協助工業廠房之業者控管其自身設備之耗電量, 以免超過該契約用電量而必須負擔額外之超支電費用。 【實施方式】 表單編號A0101 第5頁/共13頁 [0011] [0011] [0012]M397648 V. New description: [New technical field] [0001] This creation is about a decentralized multi-functional energy-saving control system, especially a multi-time scheduling control method to avoid unnecessary power consumption, which can be reduced in time. Peak control electricity and mobile electricity charges to achieve energy-saving control systems. [Prior Art] [0002] In recent years, the problem of global warming is serious. One of the main reasons is the gradual increase in electricity consumption. In order to achieve the goal of energy saving and carbon reduction, large quantities of electricity are used in industrial plants and large-scale construction. In this case, it is necessary to set up an energy-saving related system to effectively monitor and control the use of electricity, in order to minimize the unnecessary electricity consumption. [0003] Taking an industrial plant as an example, in order to reduce excessive power consumption, the power plant will most likely enter into a contract capacity value with the industrial plant. When the industrial plant exceeds the contract capacity value, it will have to pay an additional over-expenditure fee. This approach is of considerable benefit to the country's power control, and how industrial plants can avoid over-expenditure in internal equipment operations in their own systems is an important task, and the current technology However, it is rare to have an energy-saving system that can effectively and reasonably make energy-saving control to avoid power consumption greater than the contract capacity. Therefore, the author of this creation thinks about and designs a decentralized multi-functional energy-saving control system, aiming at the existing The lack of technology will be improved to enhance the implementation and utilization of the industry. Form No. A0101 Page 3 of 13 [0004] [0004] [0005] [0006] [New Content] In view of the above-mentioned shortcomings of the prior art, the present design system is designed to be a decentralized structure innovation. The multi-functional energy-saving control system aims to overcome the difficulties of the prior art. In order to achieve the above objectives, the technical means adopted in this creation is to design a decentralized multi-functional energy-saving control system, which comprises: a processing host, which is an electronic device with logic computing capability; a power monitor, which transmits through a The network is connected to the processing host, and the power monitor is provided with a plurality of electric meters, and the power consumption is monitored through the electric meters; and an energy-saving control center device is connected to the processing host through a network, and the energy saving The control central device is electrically connected to the complex «kl /rrt /.U ΙΛ> A- ·"* H on AA* AU I» f-Ijl, 士ία -»r Λ _U v_ double 1E) is available? Once, the Qiu is divided into the board, and the board is connected to the king. The operating equipment for temperature control is further connected to the meters after the distribution so that the meters can measure the consumption. The amount of electricity. The energy saving module further includes an electromagnetic contactor (or solid state relay), a temperature sensing device, a current comparator and an energy saving controller; wherein the electromagnetic contactor (or solid state relay) is electrically connected to the a working device, the electromagnetic contactor (or solid state relay) can be controlled to selectively control the working device to be turned on or off; wherein the temperature sensing device is configured to measure a corresponding room temperature of the working device; wherein the specific flow The device is configured to measure a current of the working device; wherein the energy saving controller is electrically connected to the energy saving control hub device, and the energy saving controller further comprises a device control unit, a temperature measuring unit and a current measuring unit Wherein the device control unit is electrically connected to the electromagnetic contactor to emit a signal form number A0101, page 4/13, M397648, to the electromagnetic contactor (or solid state relay) and control a corresponding opening or closing of the working device Wherein the temperature measuring unit is electrically connected to the temperature sensing device to transmit the measured temperature thereof; wherein the current measuring list The thermoelectric device is connected to the current transformer to transmit the current measured by the current comparator; wherein the temperature sensing device is a temperature sensing rod. [0008] wherein the power monitor can transmit the power consumption information measured by the electricity meter to the energy-saving control hub device, and then the energy-saving control hub device can analyze and output the command that must be executed according to the power consumption information. Each of the energy-saving controllers is configured to perform energy-saving control of the equipment for each working device; and wherein each of the energy-saving controllers can read the temperature through the temperature measuring unit, and then read the current through the current measuring unit, and then pass through The device control unit controls the controlled working devices, and the control means uses the electromagnetic contactor to open the circuit and the path device to unload/load. [0009] wherein the processing host is a controller with a computing and logic determining function; wherein the number of the electric meters is at most 10, and the number of the energy saving modules is at most 30; and wherein the working device is a power device. [0010] The decentralized multi-functional energy-saving control system is designed to provide an effective integration function to control the power consumption of a plurality of operating devices, and may take turns when the power is excessive or when the room temperature reaches a certain value. Drive each working device to temporarily break the circuit, and after a period of time or after the temperature exceeds a certain value, drive the working device again to make a path, so as to efficiently assist the industrial plant operators to control the power consumption of their own equipment. The amount, in order to avoid exceeding the contract electricity consumption, must bear the extra over-expenditure costs. [Embodiment] Form No. A0101 Page 5 of 13 [0011] [0012] [0012]
Luuioj [0014] [0015] 為利貴審查員瞭解本創作之創作特徵、内容與優點 及其所能達成之功效,兹將本創作配合關,並以實施 例之表達形式詳纟《說明如下,而其#職狀圖式,其 主旨僅為示意及輔助說明書之用’未必為本創作實施後 之真實比例與精準配置,&不應就所附之圖式的比例與 配置關係解讀、侷限本創作於實際實施上的權利範圍, 合先敘明。 β月配合參看第一至三圖所示,本創作係為一種分散 式之多功能節能控制系統,其於一較佳之實施方式中包 含一處理主機(10) ' —電力監控器(20)及一節能控制中 樞裝置(3〇h 前述之處理主機(1〇)為一具備邏輯運算能力之電子 裝置’例如可為一電腦。 刖述之電力監控器(20)可透過一網路連接至該處理 主機(10),且該電力監控器(20)可具備有複數個電錶 (21),例如1〇個電錶(21),且可透過各該電錶(21)監控 電力之消耗。 前述之節能控制中樞裝置(3〇)可透過一網路連接至 該處理主機(10),且該節能控制中柩裝置(3〇)電性連接 至複數個節能模組(31),例如可為30個節能模組(31), 且各該節能模組(31)電性連接至廠房中之一溫控用之作 業設備(90),例如可為一空調設備,該些作業設備(9〇) 進一步於分配後分別連接至該些電錶(21)上,以讓該些 電錶(21)可測量其所消耗之電量。 表單编號A0101 第6頁/共13頁 [0016] 且s玄節能模組(31)於實施上進一步包含一電磁接觸 器(或固態繼電器)(311) ' —感溫裝置(312)、一比流 器(313)及一節能控制器(314);其中該電磁接觸器(或 固.%繼電器)(311)電性連接於該些作業設備(9〇),其 可丈驅控而選擇性控制該作業設備(9〇)開啟或關閉;其 中该感溫裝置(31 2 )用以測量一對應之該作業設備(9 〇 ) 處之室溫,其或可為一感溫棒;其中該比流器(313)用以 測量一對應之該作業設備(90)之電流;其中該節能控制 器(314)電性連接至該節能控制中樞裝置(3〇),且該節 能控制器(314)進一步包含一設備控制單元(3141)、一 溫度量測單元(3142)及一電流量測單元(3143);其中該 设備控制單元(3141)電性連接至該電磁接觸器(或固態繼 電器)(311)以發出訊號給予該電磁接觸器(或固態繼電 器)(311)並控制一對應之該作業設備(9〇)之開啟或關 閉,其中該溫度量測單元(3142)電性連接至該感溫裝置 (312)以傳遞其所測量之溫度;其中該電流量測單元 (3143)電性連接至該比流器(313),以傳遞該比流器 (31 3)所量測之電流量》 [0017] 而其中於實施時,該電力監控器(2〇)可將電錶(21) 所測得之耗電量資訊傳遞至該節能控制中樞裝置(3〇), 而後該節能控制令樞装置(30)可根據該耗電量資訊分析 並將必須要執行的命令傳送給各該節能控制器(314),以 針對各作業設僙(90)作設備的節能控制,而其中各節能 控制器(314)中可透過溫度量測單元(3142)讀取溫度, 而後透過電流量測單元(3143)讀取電流,接著再透過設 表單編號A0101 第7頁/共13頁 [0018]M397648 備控制單元(3141)控制該些受控之作業設備(90),其控 制方式可為利用該電磁接觸器(311)作斷路、通路設備卸 /投載。 而透過本創作之分散式之多功能節能控制系統於設 計上的巧思變化,可提供一有效的整合功能,以管控複 數個作業設備(90)之用電,且於電量超量時或者是室溫 達到一定值時,分別單一性地輪流驅控各作業設備(90) ,使其暫時呈現斷路,並於一段時間後或者是溫度超過 一定值後再次驅動該作業設備(90)使其呈現通路,如此 一來將可有效率地協助工業廠房之業者控管其自身設備 之耗電量,以避免超過該契約用電量而必須負擔額外之 超支電費用,故可見其增益娘娜表-。…… [0019] 以上所述之實施例僅係為說明本創作之技術思想及 特點,其目的在使熟習此項技藝之人士能夠瞭解本創作 之内容並據以實施,當不能以之限定本創作之專利範圍 ,即大凡依本創作所揭示之精神所作之均等變化或修飾 ,仍應涵蓋在本創作之專利範圍内。 [0020] 綜觀上述,可見本創作在突破先前之技術下,確實 已達到所欲增進之功效,且也非熟悉該項技藝者所易於 思及,其所具之進步性、實用性,顯已符合專利之申請 要件,爰依法提出專利申請,懇請貴局核准本件創作專 利申請案,以勵創作,至感德便。 【圖式簡單說明】 第一圖為本創作之分散式之多功能節能控制系統之配置 表單編號A0101 第8頁/共13頁 [0021] M397648 示意圖》 第二圖為本創作之分散式之多功能節能控制系統之局部 配置示意圖。 第三圖為本創作之分散式之多功能節能控制系統之實施 配置示意圖。 【主要元件符號說明】 _]處理主機(j 0) 電力監控器(20) 電錶(21) 節能控制中樞裝置(30) 節能模組(31) 電磁接觸器(311) 感溫裝置(312) 比流器(313) 節能控制器(314) 設備控制單元(3141) 溫度量測單元(3142) 電流量測單元(3143) 作業設備(90) 表軍編號A0101 第9買/共13頁Luuioj [0015] [0015] For the valuable examiner to understand the creative features, content and advantages of this creation and the effects that can be achieved, the author will cooperate with the author and explain the following in the form of the embodiment. Its #职图, the main purpose is only for the purpose of the instructions and the auxiliary instructions 'not necessarily the true proportion and precise configuration after the implementation of the creation, & should not interpret the ratio and configuration relationship of the attached schema, limit this The scope of rights created in actual implementation is described in advance. As shown in Figures 1 to 3, the present invention is a decentralized multi-functional energy-saving control system, which in a preferred embodiment includes a processing host (10) '-power monitor (20) and An energy-saving control hub device (3〇h, the aforementioned processing host (1〇) is an electronic device having logic operation capability' can be, for example, a computer. The power monitor (20) described above can be connected to the network through a network. The host (10) is processed, and the power monitor (20) can be provided with a plurality of electric meters (21), for example, one electric meter (21), and the power consumption can be monitored through each of the electric meters (21). The control center device (3〇) can be connected to the processing host (10) through a network, and the energy-saving control device (3〇) is electrically connected to the plurality of energy-saving modules (31), for example, 30 The energy-saving module (31), and each of the energy-saving modules (31) is electrically connected to one of the plant for temperature control (90), for example, an air-conditioning device, and the working devices (9〇) further Connected to the meters (21) after distribution to allow the The meter (21) can measure the amount of electricity it consumes. Form No. A0101 Page 6 of 13 [0016] The s Xuan energy-saving module (31) further includes an electromagnetic contactor (or solid state relay) in implementation ( 311) '- a temperature sensing device (312), a current comparator (313) and an energy saving controller (314); wherein the electromagnetic contactor (or solid.% relay) (311) is electrically connected to the operating devices (9〇), which can selectively control the operation device (9〇) to be turned on or off; wherein the temperature sensing device (31 2 ) is used to measure a corresponding room of the working device (9 〇) Temperature, which may be a temperature sensing rod; wherein the current comparator (313) is configured to measure a current of the working device (90); wherein the energy saving controller (314) is electrically connected to the energy saving control center The device (3), and the energy-saving controller (314) further includes a device control unit (3141), a temperature measuring unit (3142), and a current measuring unit (3143); wherein the device control unit (3141) Electrically connected to the electromagnetic contactor (or solid state relay) (311) to signal the a magnetic contactor (or solid state relay) (311) and controlling a corresponding opening or closing of the working device (9〇), wherein the temperature measuring unit (3142) is electrically connected to the temperature sensing device (312) to transmit The measured temperature; wherein the current measuring unit (3143) is electrically connected to the current comparator (313) to transmit the amount of current measured by the current comparator (31 3). In implementation, the power monitor (2〇) can transmit the power consumption information measured by the electric meter (21) to the energy-saving control hub device (3〇), and then the energy-saving control device (30) can be configured according to the The power consumption information analysis transmits a command that must be executed to each of the energy saving controllers (314) to perform energy saving control of the devices for each job setting (90), wherein each energy saving controller (314) is permeable. The temperature measuring unit (3142) reads the temperature, and then reads the current through the current measuring unit (3143), and then controls the current through the form number A0101, page 7/13, [0018] M397648 standby control unit (3141). Some controlled working equipment (90), which can be controlled by utilizing the A magnetic contactor (311) for disconnecting the passage unloading device / dropper. Through the creative design of the decentralized multi-functional energy-saving control system, an effective integration function can be provided to control the power consumption of a plurality of operating devices (90), and when the power is excessive, When the room temperature reaches a certain value, each working device (90) is alternately controlled to be temporarily turned off, and the working device (90) is driven again after a period of time or after the temperature exceeds a certain value. The channel, in this way, will be able to efficiently assist the industrial plant operators to control the power consumption of their own equipment, in order to avoid exceeding the contracted electricity consumption and must bear the additional over-expenditure expenses, so it can be seen that the gain of the Yanna table - . [0019] The above-described embodiments are merely illustrative of the technical idea and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement them according to the present invention. The scope of the patents created, that is, the equivalent changes or modifications made by the people in accordance with the spirit of the creation, should still be covered by the scope of this creation. [0020] Looking at the above, it can be seen that this creation has achieved the desired effect under the previous technology, and it is not familiar with the skill of the artist, and its progressive and practical. In accordance with the application requirements of the patent, the patent application is filed according to law, and you are requested to approve the creation of the patent application for this article, in order to encourage creation, to the sense of virtue. [Simple description of the diagram] The first picture is the configuration of the distributed multi-function energy-saving control system of the creation. Form No. A0101 Page 8 of 13 [0021] M397648 Schematic The second picture is the decentralized creation of this creation. Schematic diagram of the local configuration of the functional energy-saving control system. The third figure is a schematic diagram of the implementation of the decentralized multi-functional energy-saving control system. [Main component symbol description] _]Processing host (j 0) Power monitor (20) Meter (21) Energy-saving control hub (30) Energy-saving module (31) Electromagnetic contactor (311) Temperature-sensing device (312) Flow (313) Energy Saving Controller (314) Equipment Control Unit (3141) Temperature Measurement Unit (3142) Electric Current Measurement Unit (3143) Operation Equipment (90) Military No. A0101 9th Buy/Total 13 Pages