本發明之主要目的係在於,克服習知技藝所遭遇之上述問題並提供一種將消防自動撒水、泡沫、及消防栓等消防滅火系統整合在一起,且隨時都有在運作補壓,隨時可發現設備故障而能馬上處理,若水量壓力不夠也可以直接並聯進來,因此不會有傳統技術等到要使用時才發現設備故障之問題之消防動力整合裝置。 為達以上之目的,本發明係一種消防動力整合裝置,係包括:一蓄水池,提供消防用水;數個沉水豎軸變頻泵浦,係設於該蓄水池內,用以將該蓄水池內之消防用水以預定之壓力進行輸送,每一沉水豎軸變頻泵浦沿其軸向鄰近該蓄水池一端設有一與該蓄水池連通之入水口,且每一沉水豎軸變頻泵浦沿其徑向之側環面上設有一與該入水口連通之單泵出水口;數條單泵出水管線,每一單泵出水管線包含有一逆止閥、一閘閥及一單泵出水管與該單泵出水口以順序相連接,用以輸送由該數個沉水豎軸變頻泵浦所輸出之消防用水;一連通管,沿其徑向之側環面上係與每一單泵出水管連接,且該連通管沿其軸向鄰近該蓄水池一端連接有一與該蓄水池連通之試水排水管;一消防管線,包括一消防撒水管、一消防栓管、及一泡沫管,該消防撒水管一端係連接於該連通管之側環面上,另一端連接於一消防撒水系統,而該消防栓管與該泡沫管一端係連接於該連通管之側環面上,另一端各透過一穩壓閥分別連接於一消防栓系統與一泡沫系統,用以使消防用水自該數個沉水豎軸變頻泵浦對外輸出;且其中,當消防用水從該消防栓管或該泡沫管流出後,其壓力可由該穩壓閥設定要求壓力,當壓力過大,可利用該穩壓閥產生用力,藉以控制消防用水之要求壓力;至少一隔膜式壓力桶,係為中空桶體,其桶內設有一隔膜,可區隔出一水液區及一空氣區,其桶底設有一進水口,該進水口可供設有一進水管與該連通管另一端相連接,用以穩定出水壓力,同時給予該進水管、該些單泵出水管、該連通管、及該消防管線穩定之水壓;一低壓警報器,係設在該連通管上,用以維持一最大需求壓力,在低於該最大需求壓力時發出警報,以警告任一沉水豎軸變頻泵浦之單泵出水口之壓力過低;一控制器,係與該數個沉水豎軸變頻泵浦、該數條單泵出水管線、該連通管、該消防管線、該至少一隔膜式壓力桶、及該低壓警報器連接,該控制器包括一運算單元,一自動通報單元、一自我檢測單元及一雲端通訊單元,且該自動通報單元、該自我檢測單元及該雲端通訊單元分別與該運算單元連接,該運算單元用以自動擷取數個檢測結果並整合分析成數個異常資訊,根據該等異常資訊與至少一相關之可能異常沉水豎軸變頻泵浦來分別計算個別該可能異常沉水豎軸變頻泵浦之異常得分,當該異常得分總和大於一監測值時,即用以判斷須通知一管理者,並由該自動通報單元將該可能異常之沉水豎軸變頻泵浦與該等異常資訊通報予該管理者;以及一電子裝置,其與該控制器透過該雲端通訊單元通信,該電子裝置內部具有一應用程式(APP)形態載入之沉水豎軸變頻泵浦調控檢測程式,用以讓管理者通過該電子裝置進行於一固定時間間隔執行一預設沉水豎軸變頻泵浦之自我檢測功能操作,以設定至少一可程式值並接收回一測量值,從而透過該運算單元命令該自我檢測單元測試至少一沉水豎軸變頻泵浦以決定該測試之沉水豎軸變頻泵浦是否正常運作;且其中,該自我檢測功能之操作命令,能夠通過該電子裝置之雲端通訊模組進行雲端資料傳輸 ;藉此,該電子裝置係能夠對一預設之沉水豎軸變頻泵浦進行雲端資料傳輸式之自我檢測作業,並能藉由該雲端通訊模組與該控制器之雲端通訊單元進行雙向雲端資料傳輸,復透過該自我檢測單元調控或檢測沉水豎軸變頻泵浦,令管理者得以採用任何載入有該沉水豎軸變頻泵浦調控檢測程式之電子裝置直接對沉水豎軸變頻泵浦進行調控檢測。 於本發明上述實施例中,該沉水豎軸變頻泵浦為底吸式之沉水豎軸變頻泵浦。 於本發明上述實施例中,該消防撒水系統為數個撒水頭,該消防栓系統為數個消防栓接頭,及該泡沫系統為數個泡沫噴頭。 於本發明上述實施例中,該進水管、該些單泵出水管、該連通管、及該消防管線係為一恆壓管路,維持在該最大需求壓力。 於本發明上述實施例中,該最大需求壓力係以最高撒水壓力為基準。 於本發明上述實施例中,該自我檢測功能操作包括該沉水豎軸變頻泵浦之定時定量釋壓、驅動運轉補壓測試、或因管路失壓,恆壓變頻控制給予啟動運轉補壓至少其中一者。 於本發明上述實施例中,該電子裝置係為個人電腦、筆記型電腦、智慧型手機、或平板電腦。The main purpose of the present invention is to overcome the problems encountered in the conventional arts and provide a fire extinguishing system that integrates automatic sprinkler, foam, and hydrants for fire fighting. Equipment failure can be handled immediately. If the water pressure is not enough, it can be directly connected in parallel, so there is no fire protection power integration device of traditional technology that waits until the use of the equipment failure. In order to achieve the above purpose, the present invention is a fire power integration device, which includes: a reservoir for providing water for fire fighting; several submersible vertical axis frequency conversion pumps are arranged in the reservoir for The firefighting water in the reservoir is delivered at a predetermined pressure. Each submerged vertical axis variable frequency pump is provided along its axis adjacent to one end of the reservoir with an inlet connected to the reservoir. The vertical axis variable frequency pump is provided with a single-pump water outlet connected to the water inlet on the circumferential side surface of the vertical axis. Several single-pump water outlet lines each include a check valve, a gate valve and a The single-pump outlet pipe is connected to the single-pump outlet in order to convey the fire-fighting water output by the submersible vertical axis variable-frequency pumps; a communication pipe is connected to the side surface along the radial direction with The water outlet pipe of each single pump is connected, and the communication pipe is connected along the axial direction to one end of the water storage tank with a water test drainage pipe connected to the water storage tank; a fire protection pipeline including a fire sprinkler pipe and a fire hydrant pipe And a foam pipe, one end of the fire sprinkler pipe is connected to the company The other end of the side annular surface of the pipe is connected to a fire sprinkler system, and one end of the fire hydrant pipe and the foam pipe is connected to the side annular surface of the communication pipe, and the other ends are respectively connected to a The fire hydrant system and a foam system are used to output fire water from the submersible vertical axis variable frequency pumps; and when the fire water flows out of the fire hydrant pipe or the foam pipe, the pressure can be stabilized by the pressure. The required pressure is set by the pressure valve. When the pressure is too large, the pressure regulating valve can be used to generate force to control the required pressure of water for fire fighting. At least one diaphragm pressure bucket is a hollow bucket. A diaphragm is arranged in the bucket to distinguish A water-liquid zone and an air zone are provided. The bottom of the bucket is provided with a water inlet. The water inlet can be provided with a water inlet pipe connected to the other end of the communication pipe to stabilize the water outlet pressure. The single pump outlet pipe, the communication pipe, and the stable water pressure of the fire protection pipeline; a low-pressure alarm is installed on the communication pipe to maintain a maximum demand pressure, and an alarm is issued when the maximum demand pressure is lower than the maximum demand pressure In order to warn that the pressure of the single pump outlet of any submersible vertical axis variable frequency pump is too low; a controller is connected to the submersible vertical axis variable frequency pumps, the single pump water outlet lines, the connecting pipe, The fire-fighting pipeline, the at least one diaphragm-type pressure bucket, and the low-pressure alarm are connected. The controller includes a computing unit, an automatic notification unit, a self-detection unit, and a cloud communication unit, and the automatic notification unit, the self- The detection unit and the cloud communication unit are respectively connected to the operation unit, and the operation unit is used to automatically capture a plurality of detection results and integrate analysis into a plurality of abnormal information, and according to the abnormal information and at least one related abnormal submersible vertical axis Variable frequency pumps are used to calculate the abnormal scores of individual vertical submersible vertical axis variable frequency pumps. When the sum of the abnormal scores is greater than a monitoring value, it is used to determine that a manager must be notified, and the automatic notification unit will report the The abnormal submersible vertical axis variable frequency pump and the abnormal information are notified to the manager; and an electronic device communicates with the controller through the cloud communication unit The electronic device has a submersible vertical axis variable-frequency pump control test program loaded in the form of an application program (APP) to allow the administrator to execute a preset submersible vertical axis through the electronic device at a fixed time interval. The self-test function of the variable-frequency pump operates to set at least one programmable value and receive a measurement value, so that the self-test unit is commanded to test at least one submersible vertical axis variable-frequency pump through the computing unit to determine the submersion of the test. Whether the vertical axis variable frequency pump is operating normally; and among which, the operation command of the self-test function can be used for cloud data transmission through the cloud communication module of the electronic device; thereby, the electronic device is capable of preventing a preset sinking water The vertical axis variable frequency pump performs cloud data transmission type self-testing operation, and can perform bidirectional cloud data transmission through the cloud communication module and the cloud communication unit of the controller, and the submerged vertical control can be controlled or detected by the self-testing unit. Axis variable frequency pump allows managers to directly use any electronic device loaded with the submersible vertical axis variable frequency pump control program The submersible vertical axis variable frequency pump is used for regulation and testing. In the above embodiment of the present invention, the submersible vertical axis variable frequency pump is a bottom suction type submersible vertical axis variable frequency pump. In the above embodiment of the present invention, the fire sprinkler system is a plurality of sprinkler heads, the fire hydrant system is a plurality of fire hydrant joints, and the foam system is a plurality of foam sprinklers. In the above embodiment of the present invention, the water inlet pipe, the single-pump water outlet pipes, the communication pipe, and the fire-fighting pipeline are a constant-pressure pipeline and are maintained at the maximum required pressure. In the above embodiment of the present invention, the maximum required pressure is based on the highest watering pressure. In the above-mentioned embodiment of the present invention, the self-test function operation includes timing and quantitative pressure release of the submerged vertical axis variable-frequency pump, driving operation pressure test, or constant pressure variable-frequency control to give start-up operation pressure due to pipeline pressure loss. At least one of them. In the above embodiment of the present invention, the electronic device is a personal computer, a notebook computer, a smart phone, or a tablet computer.
請參閱『第1圖』所示,係本發明消防動力整合裝置之架構示意圖。如圖所示:本發明係一種消防動力整合裝置,係包括一蓄水池1、數個沉水豎軸變頻泵浦2、數條單泵出水管線3、一連通管4、一消防管線5、至少一隔膜式壓力桶6、一低壓警報器7、一控制器8、及一電子裝置9所構成。 上述所提之蓄水池1提供消防用水11。 該數個沉水豎軸變頻泵浦2為底吸式之沉水豎軸式抽水馬達,係設於該蓄水池1內,用以將該蓄水池1內之消防用水11以預定之壓力進行輸送,每一沉水豎軸變頻泵浦2沿其軸向鄰近該蓄水池1一端設有一與該蓄水池1連通之入水口21,且每一沉水豎軸變頻泵浦2沿其徑向之側環面上設有一與該入水口21連通之單泵出水口22。 該數條單泵出水管線3中,每一單泵出水管線3包含有一逆止閥31 、一閘閥32及一單泵出水管33與該單泵出水口22以順序相連接 ,用以輸送由該數個沉水豎軸變頻泵浦2所輸出之消防用水。 該連通管4沿其徑向之側環面上係與每一單泵出水管33連接,且該連通管4沿其軸向鄰近該蓄水池1一端連接有一與該蓄水池1連通之試水排水管41。 該消防管線5包括一消防撒水管5a、一消防栓管5b、及一泡沫管5c,該消防撒水管5a一端係連接於該連通管4之側環面上,另一端連接於一消防撒水系統,例如數個撒水頭51,而該消防栓管5b與該泡沫管5c一端係分別連接於該連通管4之側環面上,另一端各透過一穩壓閥52分別連接於一消防栓系統,例如數個消防栓接頭53,與一泡沫系統,例如數個泡沫噴頭54,用以使消防用水自該數個沉水豎軸變頻泵浦2對外輸出;且其中,當消防用水從該該消防栓管5b或該泡沫管5c流出後,其壓力可由該穩壓閥52設定要求壓力,當壓力過大,可利用該穩壓閥52產生用力,藉以控制消防用水之要求壓力。 該至少一隔膜式壓力桶6係為中空桶體61,其桶內設有一隔膜62 ,可區隔出一水液區63及一空氣區64,其桶底設有一進水口65,該進水口65可供設有一進水管66與該連通管4另一端相連接,用以穩定出水壓力,同時給予該進水管66、該些單泵出水管33、該連通管4、該消防管線5穩定之水壓。 該低壓警報器7係設在該連通管4上,用以維持一最大需求壓力,在低於該最大需求壓力時發出警報,以警告任一沉水豎軸變頻泵浦2之單泵出水口22之壓力過低。 該控制器8係與該數個沉水豎軸變頻泵浦2、該數條單泵出水管線3 、該連通管4、該消防管線5、該至少一隔膜式壓力桶6、及該低壓警報器7連接,該控制器8包括一運算單元81,一自動通報單元82、一自我檢測單元83及一雲端通訊單元84,且該自動通報單元82 、該自我檢測單元83及該雲端通訊單元84分別與該運算單元81連接,該運算單元81用以自動擷取數個檢測結果並整合分析成數個異常資訊,根據該等異常資訊與至少一相關之可能異常沉水豎軸變頻泵浦2來分別計算個別該可能異常沉水豎軸變頻泵浦2之異常得分,當該異常得分總和大於一監測值時,即用以判斷須通知一管理者,並由該自動通報單元82將該可能異常之沉水豎軸變頻泵浦2與該等異常資訊自動連線至該電子裝置9,通報予該管理者。 該電子裝置9與該控制器8透過該雲端通訊單元84通信,該電子裝置9內部具有一應用程式(APP)形態載入之沉水豎軸變頻泵浦調控檢測程式,用以讓管理者通過該電子裝置9進行於一固定時間間隔(例如3個月自我檢測一次)執行一預設沉水豎軸變頻泵浦2之自我檢測功能操作,該自我檢測功能操作包括該沉水豎軸變頻泵浦之定時定量釋壓、驅動運轉補壓測試、或因管路失壓,恆壓變頻控制給予啟動運轉補壓至少其中一者,藉以設定至少一可程式值並接收回一測量值,從而透過該運算單元81命令該自我檢測單元83測試至少一沉水豎軸變頻泵浦2以決定該測試之沉水豎軸變頻泵浦2是否正常運作;且其中,該自我檢測功能之操作命令,能夠通過該電子裝置9之雲端通訊模組91進行雲端資料傳輸;藉此,該電子裝置9係能夠對一預設之沉水豎軸變頻泵浦2進行雲端資料傳輸式之自我檢測作業,並能藉由該雲端通訊模組91與該控制器8之雲端通訊單元84進行雙向雲端資料傳輸,復透過該自我檢測單元83調控或檢測沉水豎軸變頻泵浦2,令管理者得以採用任何載入有該沉水豎軸變頻泵浦調控檢測程式之電子裝置9,例如個人電腦、筆記型電腦、智慧型手機、或平板電腦等直接對沉水豎軸變頻泵浦2進行調控檢測。如是,藉由上述揭露之結構構成一全新之消防動力整合裝置。 於一實施例中,根據傳統之消防撒水系統為2700 LPM,泡沫系統為1500 LPM,及消防栓系統為300 LPM,本發明於設計時係設計撒水量為最大量,中間管線壓力之設計,譬如撒水之高度或消防栓中間壓力之設計,以實際需求去設計讓其表現為恆壓,依樓層之高度做調整,中間某一段管線為恆壓。本發明係採用底吸式之沉水豎軸變頻泵浦,即底部不用灌水,利用底吸式係設置於地面以下之特性,使泵浦之抽水管直接就泡在蓄水池裡面,並透過泵浦為變頻泵浦,可使中間進水管66、該些單泵出水管33、該連通管4、及該消防管線5形成一恆壓管路,將其維持在該最大需求壓力,當壓力不夠就變頻做調整,同時搭配至少一隔膜式壓力桶6,可讓壓力維持穩定,儲存壓力。 當壓力需求較低之消防栓系統或泡沫系統,在其消防栓管5b、泡沫管5c上各加裝一穩壓閥52,經過該穩壓閥52可讓連接至消防栓系統或泡沫系統之管線壓力有效降低,讓流量可以控制在較小狀態,符合法規300LPM或1500LPM,以維持恆壓。本發明另在連通管4上設有一低壓警報器7,若壓力不夠,則提醒任一沉水豎軸變頻泵浦2可能發生故障,需做處理。 本發明可由個人電腦、筆記型電腦、智慧型手機、或平板電腦等電子裝置內載入APP監測累計流量、瞬間流量、斷電記錄、異常偵測,不會因突發性之停止運轉而流失水量資訊。且沉水豎軸變頻泵浦與電子裝置APP可做雙向通訊,可對沉水豎軸變頻泵浦即時運轉訊息作遠端監控;也可即時對電子裝置作遠端預警及發出警報。當沉水豎軸變頻泵浦發生異常時,透過電子裝置所安裝APP系統立即通知管理者,讓管理者能在第一時間將故障排除。同時,本發明更利用雲端資料傳輸技術,將沉水豎軸變頻泵浦之電壓、電流、水壓等資料即時透過電子裝置顯示,當沉水豎軸變頻泵浦異常發生時,系統會立即通知管理者處理。藉由運用最新物聯網技術隨時隨地監測沉水豎軸變頻泵浦運轉歷史紀錄與統計,可協助管理者進行設備調度與能源管理。 本發明之特點在於,將消防自動撒水、泡沫、及消防栓等消防滅火系統整合在一起,且隨時都有在運作補壓,隨時可發現設備故障而能馬上處理,若壓力不夠也可以直接並聯進來,因此不會有傳統技術等到要使用時才發現設備故障之問題。本發明設計時以最大水量、壓力來設計,不需每一消防滅火系統都一個,可減少資源降低成本。如第1圖所示,以3台或4台滿足最大用水量Q,恆壓設定以最大需求壓力H,且永遠維持最高撒水壓力: 消防撒水系統最大用水量Q=2700 LPM,在9 kg/cm
2壓力不變下,水量2700 LPM除以3,每個都900 LPM,使每個撒水頭出來壓力皆為9 kg/cm
2。 泡沫系統Q=1500LPM,50M。 消防栓系統Q=300LPM,85M。 由上述可知,消防撒水系統滿足最大壓力(恆壓),最大水量(2700 LPM),撒水頭噴撒量愈多運轉愈快,壓力恆定不變。而消防栓及泡沫動作,經穩壓閥,消防栓、泡沫系統壓力水量維持恆壓變量。 據此,本發明具有下列改善理念及其優點: 1.同馬力、同型號多台沉水豎軸變頻泵浦交替並列變速運轉。 2.免除另設補助泵。 3.多台平時可自動維持交替並列運轉,每台平常都在交替持壓運轉,使火災發生時全部都能運作正常,達到滅火功效。 4.底吸式配管,不須輔助水槽補水。 5.具低壓警報,維持一個要求壓力而不需上限壓力。 當壓力太大可使用穩壓閥減壓;所以只要一套多台式恆壓變頻泵浦就可以滿足三套不同用途,減少浪費投資。 6.用多少水,耗多少電。 採用恆壓變頻變速的應用,大泵浦可以用小水量,用多少水耗多少電,所以選用最大100 HP/4=25 HP四台之組合,做交替並列變頻變速運轉 ,四台並列滿足最大撒水水量,就可滿足比較小量之消防栓、泡沫需求。當滿足最高撒水壓力,則比較低之消防栓、泡沫壓力也能涵蓋。 7.採用隔膜式壓力桶持壓穩定,儲壓容易。 8.緩啟緩停,無啟動電流及水鎚。 9.遠方通報:a故障移除;b檢知故障原因。 採用沉水豎軸變頻泵浦可改善目前負壓吸水之嚴重缺失,避免萬一發生火災時才發現福地閥打不開,水吸不上來之情況,導致危害生命產財之問題。因此,本發明可替代目前使用臥式端吸泵浦。 10.自我檢點功能:恆壓控制,可定時定量釋壓,驅動運轉補壓測試;或因管路失壓,一發生降壓恆壓變頻控制就自動給予啟動運轉補壓。 綜上所述,本發明係一種消防動力整合裝置,可有效改善習用之種種缺點,將消防自動撒水、泡沫、及消防栓等消防滅火系統整合在一起,且隨時都有在運作補壓,隨時可發現設備故障而能馬上處理,若壓力不夠也能直接並聯處理,因此不會有傳統技術等到要使用時才發現設備故障之問題,進而使本發明之□生能更進步、更實用、更符合使用者之所須,確已符合發明專利申請之要件,爰依法提出專利申請。 惟以上所述者,僅為本發明之較佳實施例而已,當不能以此限定本發明實施之範圍;故,凡依本發明申請專利範圍及發明說明書內容所作之簡單的等效變化與修飾,皆應仍屬本發明專利涵蓋之範圍內。
Please refer to "Figure 1", which is a schematic diagram of the structure of the fire power integration device of the present invention. As shown in the figure: the present invention is a fire power integration device, which includes a reservoir 1, several submersible vertical axis variable frequency pumps 2, several single pump water outlet lines 3, a connecting pipe 4, a fire protection line 5 , At least one diaphragm pressure tank 6, a low pressure alarm 7, a controller 8, and an electronic device 9. The water tank 1 mentioned above provides water for fire fighting 11. The submersible vertical axis variable-frequency pumps 2 are bottom-suction submersible vertical axis pumping motors, which are arranged in the water storage tank 1 and are used to preset the fire fighting water 11 in the water storage tank 1 in a predetermined amount. Each submerged vertical axis variable frequency pump 2 is provided along the axial direction adjacent to the reservoir 1 with an inlet 21 communicating with the reservoir 1 and each submerged vertical axis variable frequency pump 2 A single pump water outlet 22 is provided on the side annular surface along the radial direction and communicates with the water inlet 21. Among the plurality of single pump water outlet lines 3, each single pump water outlet line 3 includes a check valve 31, a gate valve 32, and a single pump water outlet pipe 33 and the single pump water outlet 22 are connected in order to convey The fire-fighting water output by the submersible vertical axis variable-frequency pumps 2. The communication pipe 4 is connected to each single-pump outlet pipe 33 along its radial side annular surface, and one end of the communication pipe 4 adjacent to the reservoir 1 along the axial direction is connected to a communication with the reservoir 1. Test water drainage pipe 41. The fire fighting pipeline 5 includes a fire sprinkler pipe 5a, a fire hydrant pipe 5b, and a foam pipe 5c. One end of the fire sprinkler pipe 5a is connected to the side ring surface of the communication pipe 4, and the other end is connected to a fire sprinkler system. For example, several sprinkler heads 51, and one end of the fire hydrant pipe 5b and the foam pipe 5c are respectively connected to the side annular surface of the communication pipe 4, and the other ends are respectively connected to a fire hydrant system through a pressure regulating valve 52. For example, a number of fire hydrant joints 53 and a foam system, such as a number of foam nozzles 54 are used to output fire water from the submersible vertical shaft frequency conversion pumps 2; After the hydrant pipe 5b or the foam pipe 5c flows out, the pressure can be set by the pressure regulating valve 52. When the pressure is too large, the pressure regulating valve 52 can be used to generate force to control the required pressure of fire water. The at least one diaphragm pressure bucket 6 is a hollow barrel 61. A diaphragm 62 is provided in the bucket, which can separate a water-liquid zone 63 and an air zone 64. The bottom of the bucket is provided with a water inlet 65. The water inlet 65 can be provided with a water inlet pipe 66 connected to the other end of the communication pipe 4 to stabilize the water outlet pressure, while giving the water inlet pipe 66, the single pump water outlet pipe 33, the communication pipe 4, the fire line 5 is stable Water pressure. The low pressure alarm 7 is arranged on the communication pipe 4 to maintain a maximum required pressure, and an alarm is issued when the maximum required pressure is lowered to warn the single pump outlet of any submersible vertical axis variable frequency pump 2 The pressure of 22 is too low. The controller 8 is connected to the submersible vertical axis variable frequency pumps 2, the single pump water outlet lines 3, the communication pipe 4, the fire protection line 5, the at least one diaphragm pressure tank 6, and the low pressure alarm. The controller 8 is connected. The controller 8 includes a computing unit 81, an automatic notification unit 82, a self-detection unit 83, and a cloud communication unit 84. The automatic notification unit 82, the self-detection unit 83, and the cloud communication unit 84. Connected to the computing unit 81 respectively. The computing unit 81 is used to automatically capture several detection results and analyze them into several pieces of abnormal information. According to the abnormal information and at least one related abnormal submersible vertical axis variable frequency pump 2 Calculate the abnormal score of each possible abnormal submersible vertical axis variable frequency pump 2 separately. When the sum of the abnormal scores is greater than a monitoring value, it is used to judge that a manager must be notified, and the possible abnormality is notified by the automatic notification unit 82. The submersible vertical axis variable frequency pump 2 and the abnormal information are automatically connected to the electronic device 9 and notified to the manager. The electronic device 9 communicates with the controller 8 through the cloud communication unit 84. The electronic device 9 has a submerged vertical axis variable-frequency pump control test program loaded in the form of an application program (APP) for the manager to pass The electronic device 9 performs a self-detection function operation of a preset submersible vertical axis variable frequency pump 2 at a fixed time interval (for example, self-test every 3 months). The self-detection function operation includes the submersible vertical axis variable frequency pump. At least one of Puzhi's timed quantitative pressure release, drive operation pressure test, or pressure loss due to pipeline loss, constant pressure variable frequency control provides start-up operation pressure, so as to set at least one programmable value and receive a measurement value. The arithmetic unit 81 instructs the self-test unit 83 to test at least one submersible vertical axis variable-frequency pump 2 to determine whether the submersible vertical axis variable-frequency pump 2 of the test operates normally; and wherein the operation command of the self-test function can Cloud data transmission is performed through the cloud communication module 91 of the electronic device 9; thereby, the electronic device 9 is capable of Axis variable frequency pump 2 performs cloud data transmission self-test operation, and can perform bidirectional cloud data transmission through the cloud communication module 91 and the cloud communication unit 84 of the controller 8. The self-test unit 83 controls or Detecting submersible vertical axis variable-frequency pump 2 allows managers to use any electronic device 9 loaded with the submersible vertical axis variable-frequency pump control program, such as a personal computer, notebook computer, smart phone, or tablet computer And so on directly to the submersible vertical axis variable frequency pump 2 to regulate and detect. If so, a completely new fire protection power integration device is constituted by the above-disclosed structure. In one embodiment, according to the traditional fire sprinkler system, it is 2700 LPM, the foam system is 1500 LPM, and the fire hydrant system is 300 LPM. The design of the present invention is to design the maximum amount of water spray and the pressure of the intermediate pipeline, such as The height of the water spray or the middle pressure of the fire hydrant is designed according to actual needs to make it behave as a constant pressure, which is adjusted according to the height of the floor, and a certain section of the pipeline is constant pressure. The invention adopts a bottom-suction vertical submersible vertical axis variable frequency pump, that is, the bottom is not filled with water, and the bottom-suction system is arranged below the ground, so that the pumping pipe is directly soaked in the reservoir and passes through. The pump is a variable frequency pump, which can form a constant pressure pipeline between the intermediate inlet pipe 66, the single pump outlet pipes 33, the communication pipe 4, and the fire protection line 5, and maintain it at the maximum required pressure. If it is not enough, adjust the frequency and adjust it with at least one diaphragm pressure tank 6 to keep the pressure stable and store the pressure. When the fire hydrant system or foam system with lower pressure requirements, a pressure regulating valve 52 is installed on each of the fire hydrant pipe 5b and the foam pipe 5c. The pressure regulating valve 52 can be connected to the fire hydrant system or the foam system. The pressure of the pipeline is effectively reduced, so that the flow can be controlled in a relatively small state, in accordance with regulations 300LPM or 1500LPM, to maintain constant pressure. In the present invention, a low-pressure alarm 7 is provided on the communication pipe 4. If the pressure is insufficient, any submersible vertical axis variable-frequency pump 2 is reminded that a fault may occur and needs to be handled. The invention can be used in personal computers, notebook computers, smart phones, or tablet computers to load APP to monitor the accumulated flow, instantaneous flow, power failure record, and abnormal detection, and it will not be lost due to sudden stop of operation. Water information. Moreover, the submersible vertical axis variable frequency pump and the electronic device APP can do bidirectional communication, which can remotely monitor the real-time running information of the submersible vertical axis variable frequency pump; it can also perform remote early warning and alarm on the electronic device in real time. When the submersible vertical axis variable frequency pump is abnormal, the APP system installed in the electronic device immediately informs the manager, so that the manager can troubleshoot the fault as soon as possible. At the same time, the present invention further utilizes cloud data transmission technology to instantly display the voltage, current, water pressure and other data of the submersible vertical axis variable frequency pump through an electronic device. When an abnormality occurs in the submersible vertical axis variable frequency pump, the system will immediately notify Management. By using the latest Internet of Things technology to monitor the operation history and statistics of the submersible vertical axis variable-frequency pump at any time and place, it can assist managers in equipment scheduling and energy management. The feature of the invention is that the fire extinguishing systems such as automatic sprinkler, foam, and hydrant are integrated together, and the pressure is always in operation at any time, and the equipment failure can be found at any time and can be processed immediately. If the pressure is not enough, it can be directly connected in parallel. Come in, so there won't be a problem that traditional technology waits until the equipment is used to discover the failure of the equipment. The invention is designed with the maximum water quantity and pressure when designing, and does not need to be provided for each fire fighting system, which can reduce resources and reduce costs. As shown in Figure 1, 3 or 4 units are used to meet the maximum water consumption Q, and the constant pressure is set to the maximum required pressure H, and the maximum watering pressure is always maintained: The maximum water consumption of the fire sprinkler system Q = 2700 LPM, at 9 kg / At a constant pressure of cm 2 , the water volume is 2700 LPM divided by 3, each 900 LPM, so that the pressure of each sprinkler head is 9 kg / cm 2 . Foam system Q = 1500LPM, 50M. Fire hydrant system Q = 300LPM, 85M. It can be known from the above that the fire sprinkler system meets the maximum pressure (constant pressure) and the maximum water volume (2700 LPM). The more the sprinkler head sprays, the faster the operation, and the pressure is constant. For fire hydrant and foam movement, the pressure water volume of the fire hydrant and foam system maintains a constant pressure variable through the pressure regulating valve. According to this, the present invention has the following improvement concepts and advantages: 1. Multiple submersible vertical axis variable frequency pumps of the same horsepower and the same model are alternately operated in parallel and are variable speed. 2. Eliminate the need to set up auxiliary pumps. 3. Multiple units can automatically maintain alternate side-by-side operation automatically, and each unit is usually operated under alternating pressure, so that when a fire occurs, all of them can operate normally and achieve the fire extinguishing effect. 4. Bottom-suction piping does not need to supplement the water tank. 5. With low pressure alarm, maintain a required pressure without the upper limit pressure. When the pressure is too large, a pressure regulator can be used to reduce the pressure; so as long as one set of multi-table constant pressure variable frequency pumps can meet three different uses, reducing wasteful investment. 6. How much water is used and how much electricity is consumed. The application of constant pressure variable frequency variable speed, large pump can use a small amount of water, how much water is consumed, how much electricity is used, so a combination of four maximum 100 HP / 4 = 25 HP is selected for alternating parallel variable frequency variable speed operation, four parallel to meet the maximum The amount of water sprayed can meet the needs of relatively small amounts of fire hydrants and foam. When the highest sprinkler pressure is met, the lower hydrant and foam pressure can be covered. 7. Diaphragm pressure bucket is used for stable pressure holding and easy pressure storage. 8. Slow start and stop, no starting current and water hammer. 9. Remote notification: a fault removed; b check the cause of the fault. The use of a submersible vertical axis variable frequency pump can improve the serious lack of negative pressure water absorption, and avoid the situation where the blessing valve cannot be opened and the water cannot be sucked up in the event of a fire, leading to problems that endanger life and wealth. Therefore, the present invention can replace the current horizontal end suction pump. 10. Self-checking function: constant pressure control, which can release pressure regularly and quantitatively to drive the pressure test for driving; or due to the pressure loss of the pipeline, the pressure will be automatically supplied to the starting operation as soon as the step-down constant pressure frequency control occurs. To sum up, the present invention is a fire power integration device, which can effectively improve the various shortcomings of the conventional fire protection system. It integrates fire sprinkler systems such as automatic sprinkler, foam, and hydrant. Equipment failures can be found and dealt with immediately. If the pressure is not enough, they can be processed in parallel directly. Therefore, there is no problem of traditional equipment waiting to be used until the equipment failure is discovered, thereby making the invention of the present invention more advanced, more practical, and more efficient. It meets the needs of users, and indeed meets the requirements of an invention patent application, and submits a patent application according to law. However, the above are only the preferred embodiments of the present invention, and the scope of implementation of the present invention cannot be limited by this; therefore, any simple equivalent changes and modifications made in accordance with the scope of the patent application and the contents of the invention specification of the present invention , All should still fall within the scope of the invention patent.