CN118920703B

CN118920703B - Intelligent PDU management system based on cloud computing

Info

Publication number: CN118920703B
Application number: CN202411379788.1A
Authority: CN
Inventors: 安伟; 陈宗奉; 李双; 温伟健; 郝旺; 徐超; 杨成双; 青和勇; 何易泽; 李扬; 李先庆
Original assignee: China Construction Fourth Bureau Installation Engineering Co Ltd
Current assignee: China Construction Fourth Bureau Installation Engineering Co Ltd
Priority date: 2024-09-30
Filing date: 2024-09-30
Publication date: 2024-12-17
Anticipated expiration: 2044-09-30
Also published as: CN118920703A

Abstract

The invention relates to an intelligent PDU management system based on cloud computing, which belongs to the technical field of PDU management systems and comprises an integrated controller, wherein an integrated control interface board is arranged on the surface of the integrated controller in a penetrating way, a current sensor is fixedly arranged in the integrated controller, a voltage sensor is fixedly arranged on one side of the current sensor, a temperature sensor is fixedly arranged on one side of the voltage sensor, a power sensor is fixedly arranged at the bottom of the current sensor, an electric actuator is fixedly arranged on one side of the power sensor, the current sensor accurately positions and adjusts the current of a PDU body, the voltage sensor automatically detects the voltage of the PDU body, the temperature sensor detects the temperature of the PDU body, the power sensor timely detects the running power of the PDU body, and the electric actuator automatically switches and executes when the data of the PDU body are abnormal, so that the intelligent PDU is not easy to damage.

Description

Intelligent PDU management system based on cloud computing

Technical Field

The invention belongs to the technical field of PDU (protocol data unit) management systems, and particularly relates to an intelligent PDU management system based on cloud computing.

Background

RPDU (Remote Power Distribution Unit) also known as a network power control system, a remote power management system, an intelligent PDU, and an intelligent power distribution system, the PDU is a power distribution device, and is mainly used for converting power input into power output suitable for computer equipment and other electronic equipment, and is generally used in data centers, computer rooms and other large-scale IT equipment environments, the PDU connects input power to a plurality of output sockets so as to facilitate the simultaneous use of a plurality of equipment, and in the data centers, the PDU plays a key role in power management, and not only can provide stable power supply, but also can monitor and control the power use of different equipment.

In the running process of the prior PDU system, due to the limitation of surrounding environment, the problem that 1, the accurate control is inconvenient for the intelligent PDU management, the damage to energy sources is easy to cause when the intelligent PDU is managed, the power supply is unstable, and thus the using stability of the intelligent PDU is reduced, 2, the cloud detection and the storage are inconvenient for the data managed by the intelligent PDU, and the loss of the data is easy to cause when the data is transmitted, thus the safety of the intelligent PDU data management is reduced, 3, the installation of intelligent PDU equipment with different sizes is inconvenient to adapt, and the management of intelligent PDUs with different sizes is inconvenient, thus the expansion of the installation of the intelligent PDU is reduced.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides an intelligent PDU management system based on cloud computing, which solves the problem of poor stability in the operation process of a PDU system due to the limitation of surrounding environment in the prior art.

The intelligent PDU management system based on cloud computing comprises an integrated controller, wherein an integrated control interface board is installed on the surface of the integrated controller in a penetrating mode, a current sensor is fixedly installed in the integrated controller, a voltage sensor is fixedly installed on one side of the current sensor, a temperature sensor is fixedly installed on one side of the voltage sensor, a power sensor is fixedly installed at the bottom of the current sensor, and an electric actuator is fixedly installed on one side of the power sensor;

The integrated controller comprises an integrated controller, wherein a collection box is fixedly arranged on one side of the integrated controller, a collection interface board is arranged on the surface of the collection box in a penetrating manner, a collection main board is fixedly arranged in the collection box, a collection conversion power supply is electrically arranged at the top of the collection main board, a storage memory card is electrically arranged on one side of the collection conversion power supply, a cloud chip is electrically arranged on one side of the storage memory card, and a current detector is electrically arranged on one side of the cloud chip;

The bottom fixed mounting of collecting box has the frame of placing, the inside and outside both ends of placing the frame bottom all fixed mounting has the removal slide rail, the top fixed mounting of removal slide rail removal end has the movable plate, the opposite side of movable plate all fixed mounting has the telescopic link, the removal end of telescopic link all fixed mounting has the side locating piece, the inside one side fixed mounting of frame has the mounting panel of placing, one side of mounting panel all fixed mounting has the main locating piece, PDU body movable mounting is in between main locating piece and the side locating piece.

Preferably, the equipment box is fixedly arranged outside the placement frame, the lower fixing plate is fixedly arranged inside the equipment box, and the upper fixing plate is fixedly arranged at the top of the lower fixing plate.

Preferably, the bottom fixed mounting of lower fixed plate has the synchronous case, and the surface of synchronous case runs through and installs synchronous interface board, and the inside fixed mounting of synchronous case has synchronous mainboard, and synchronous conversion power supply is installed to synchronous mainboard's top electrical property, and data synchronization chip is installed to synchronous conversion power supply's one side electrical property, and low-power consumption synchronization step-down chip is installed to data synchronization chip's one side electrical property.

Preferably, the bottom fixed mounting of synchronous case has the monitoring case, and the surface of monitoring case runs through and installs the monitoring interface board, and the inside fixed mounting of monitoring case has the monitoring mainboard, and the top electric property of monitoring mainboard installs the monitoring switching power supply, and one side electric property of monitoring switching power supply installs data monitoring chip, and one side electric property of data monitoring chip installs remote monitoring chip.

Preferably, the bottom fixed mounting of monitoring case has the verification case, verifies the surface of case and runs through and install the verification interface board, verifies the inside fixed mounting of case and verifies the mainboard, verifies that the top electric property of mainboard is installed and verifies switching power supply, verifies that one side electric property of switching power supply installs networking module, and one side electric property of networking module installs the authority access chip, and one side electric property of authority access chip installs the authority control chip.

Preferably, a power supply box is fixedly arranged on one side of the verification box, a storage battery is fixedly arranged in the power supply box, and a power supply interface board is arranged on the surface of the power supply box in a penetrating manner.

Preferably, the top fixed mounting of equipment box inside has the upper junction plate, and the bottom fixed mounting of upper junction plate has the sponge board, and the bottom fixed mounting of sponge board has the desiccator, the top fixed mounting of equipment box has the top connecting plate, and the top fixed mounting of top connecting plate has a top mounting frame, and the inside of top mounting frame all runs through and is provided with a top mounting hole, the bottom fixed mounting of equipment box has the bottom plate, and the bottom of bottom plate all fixed mounting has the supporting shoe, and the top of supporting shoe all fixed mounting has the slipmat, one side fixed mounting of equipment box has the side connecting plate, the surface of equipment box has the chamber door through hinge movable mounting, the inside one end fixed mounting of equipment box has the backplate.

Preferably, a tool storage box is fixedly arranged on one side of the side connecting plate, a tool door is movably arranged on one side of the tool storage box through a hinge, an operating frame is fixedly arranged at the top of the tool storage box, and an illumination dome lamp is fixedly arranged at the top of the operating frame.

Preferably, glass is installed in the inner portion of the box door in a penetrating mode, and a door handle is fixedly installed on the surface of the box door.

Preferably, the heat dissipation screen plate is fixedly arranged in the back plate, and the wiring groove is arranged in the heat dissipation screen plate in a penetrating mode.

The beneficial effects of the invention are as follows:

According to the invention, the integrated control interface board is used for carrying out connection control on the PDU body, the current sensor is used for accurately positioning and adjusting the current of the PDU body, the voltage sensor is used for automatically detecting the voltage of the PDU body, the temperature sensor is used for detecting the temperature of the PDU body, the power sensor is used for detecting the running power of the PDU body in real time, the electric actuator is used for carrying out automatic switching execution when abnormal conditions occur in data of the PDU body, the intelligent PDU can be accurately controlled in management, when abnormal conditions occur in the intelligent PDU, the intelligent PDU is managed in real time, the intelligent PDU is not easy to damage, so that the use stability of the intelligent PDU is improved, the movable plate is fixedly arranged at the connecting end of the movable slide rail, the movable plate is driven by the movable slide rail to be adjusted left and right, the movable end of the telescopic rod is used for carrying out left and right adjustment on the PDU body, the main positioning block and the side positioning block are used for installing the intelligent PDU of different sizes, and the intelligent PDU of different sizes can be managed and used, and the installation expansibility of the intelligent PDU is improved.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a front view of the overall structure of the present invention;

FIG. 3 is a schematic diagram of a partial structure of an integrated controller according to the present invention;

FIG. 4 is a partial perspective view of the placement frame of the present invention;

FIG. 5 is a schematic view of a partial structure of a synchronous box according to the present invention;

FIG. 6 is a partial perspective view of a side web of the present invention;

FIG. 7 is a partial perspective view of the top web of the present invention;

FIG. 8 is a partial perspective view of a back plate of the present invention;

fig. 9 is a partial perspective view of the door of the present invention.

Description of main reference numerals:

In the figure, 1, an equipment box; 101, a lower fixing plate; 102, an upper fixing plate; 2, upper connection plate, 201, sponge plate, 202, drying plate, 3, bottom plate, 301, support bottom block, 302, anti-slip pad, 4, integrated controller, 401, integrated control interface plate, 402, current sensor, 403, voltage sensor, 404, temperature sensor, 405, power sensor, 406, electric actuator, 5, collection box, 501, collection interface plate, 502, collection main plate, 503, collection conversion power supply, 504, storage memory card, 505, cloud chip, 506, current detector, 6, placement frame, 601, mobile slide rail, 602, mobile plate, 603, telescopic rod, 604, side positioning block, 605, mounting plate, 606, master positioning block, 7, synchronous box, 701, synchronous interface plate, 702, synchronous main plate, 703, synchronous conversion power supply, 705, data synchronous chip, low synchronous buck chip, 8, monitoring box, 801, monitoring interface plate, 802, monitoring main plate, 803, monitoring conversion power supply, 804, data monitoring chip, 805, remote chip, 9, verification box, 901, door handle, 503, collection conversion power supply, 504, storage memory card, 505, cloud chip, 506, current detector, 6, placement frame, 601, mobile slide rail, 602, mobile plate, 603, telescopic link, 604, side positioning block, 605, mounting plate, 606, master positioning block, 7, synchronous box, 701, synchronous box, 702, synchronous interface plate, 702, synchronous main plate, synchronous plate, 703, synchronous positioning block, 704, synchronous positioning block, 705, synchronous plate, 803, synchronous positioning block, synchronous plate, 705, synchronous positioning block, synchronous plate, phase positioning block, 8, synchronous plate, 801, synchronous plate, and phase positioning block, and phase positioning block, 802, phase positioning block, phase positioning plate, 802, phase plate, phase-phase plate, phase-phase, phase-phase, and phase-phase, phase- -phase- -.

Detailed Description

In order to further describe the technical means and effects adopted by the invention for achieving the preset aim, the following detailed description is given below of the specific implementation, structure, characteristics and effects according to the invention with reference to the attached drawings and the preferred embodiment.

Referring to fig. 1-9, an intelligent PDU management system based on cloud computing includes an integrated controller 4, wherein an integrated control interface board 401 is installed on a surface of the integrated controller 4 in a penetrating manner, a current sensor 402 is fixedly installed inside the integrated controller 4, a voltage sensor 403 is fixedly installed on one side of the current sensor 402, a temperature sensor 404 is fixedly installed on one side of the voltage sensor 403, a power sensor 405 is fixedly installed at the bottom of the current sensor 402, and an electric actuator 406 is fixedly installed on one side of the power sensor 405;

A collecting box 5 is fixedly arranged on one side of the integrated controller 4, a collecting interface board 501 is arranged on the surface of the collecting box 5 in a penetrating manner, a collecting main board 502 is fixedly arranged in the collecting box 5, a collecting conversion power supply 503 is electrically arranged at the top of the collecting main board 502, a storage memory card 504 is electrically arranged on one side of the collecting conversion power supply 503, a cloud chip 505 is electrically arranged on one side of the storage memory card 504, and a current detector 506 is electrically arranged on one side of the cloud chip 505;

The bottom of the collecting box 5 is fixedly provided with a placing frame 6, the inner end and the outer end of the bottom of the placing frame 6 are fixedly provided with a movable sliding rail 601, as shown in fig. 1, the top of the movable end of the movable sliding rail 601 is fixedly provided with a movable plate 602, the other side of the movable plate 602 is fixedly provided with a telescopic rod 603, the movable end of the telescopic rod 603 is fixedly provided with a side positioning block 604, one side of the inside of the placing frame 6 is fixedly provided with a mounting plate 605, one side of the mounting plate 605 is fixedly provided with a main positioning block 606, and a PDU body 13 is movably arranged between the main positioning block 606 and the side positioning block 604.

Due to the limitation of the surrounding environment in the operation process of the prior PDU system, the problem that the PDU system is inconvenient to accurately control during the intelligent PDU management, energy damage is easily caused during the intelligent PDU management, power supply is unstable, and thus the use stability of the intelligent PDU is reduced, cloud detection and storage of data managed by the intelligent PDU are inconvenient, and the data are easy to lose during transmission, so that the safety of the intelligent PDU data management is reduced, and the intelligent PDU system is inconvenient to adapt to the installation of intelligent PDU equipment with different sizes, and the intelligent PDU equipment with different sizes is inconvenient to manage, so that the expansibility of the intelligent PDU installation is reduced.

To solve the above problems, when the device is operated, connection control is performed with the PDU body 13 through the integrated control interface board 401, then accurate positioning and adjustment are performed on the current of the PDU body 13 through the current sensor 402, then the voltage is automatically detected on the PDU body 13 through the voltage sensor 403, then the temperature of the PDU body 13 is detected through the temperature sensor 404, then the operation power of the PDU body 13 is detected in real time through the power sensor 405, then automatic switching is performed when the data of the PDU body 13 is abnormal through the electric actuator 406, the current sensor 402 is operated by detecting the magnetic field generated by the current flowing through the conductor based on the hall effect principle, the hall effect means that the magnetic field is generated when the current flows through the conductor, if the conductor is located in another magnetic field, the magnetic field generated by the electron through the conductor will interact with the external magnetic field, so that electrons move to one side of the conductor, which generates a voltage proportional to the current on the conductor, and it can be measured that the voltage sensor 403 uses a voltage transformer as a sensing element, i.e. uses a voltage transformer to reduce the measured voltage to a low available voltage, then converts the low available voltage into a direct current voltage in linear relation with the measured voltage through a correlation circuit, sends the direct current voltage to a data acquisition system and an a/D converter, when the measured voltage is the direct current voltage, a voltage dividing resistor is used as the sensing element, the resistance value parallel connected to both ends of the measured element should be large enough to reduce the influence of the loss generated by the loop current on the measured value as much as possible, for a low voltage motor, a part of the voltage drop of the measured voltage on the resistor should be taken as a signal, and sent directly to the data acquisition system and the a/D converter, the power sensor 405 converts an alternating current power signal into a standard direct current voltage signal in a linear relation with the standard direct current voltage signal by adopting a special power conversion circuit, then the standard direct current voltage signal is linearly amplified by an active filter to output a constant current or constant voltage analog quantity, so that the transducer has the characteristics of high precision, stable work and the like, the output is a constant current or constant voltage signal, the electric actuator 406 consists of a servo amplifier and an actuating mechanism, 4-20 mA current signals from the regulator are sent to the input end of the servo amplifier, compared with feedback signals sent by a position transmitter, the difference value of the signals is amplified by the servo amplifier and then controls the two-phase servo motor to rotate, an angular displacement or direct stroke displacement signal is output after the speed is reduced by the speed reducer, the position of the output shaft is converted into a current signal by the position transmitter and is used as a position indication and feedback signal, when the feedback signal is balanced with the input signal, the difference signal is zero, the servo amplifier does not output, the motor stops rotating, the output at the moment, the output shaft of the actuator is stabilized at a certain position, if the input current signal is increased, the difference value of the input and the servo amplifier controls the motor to rotate positively and inversely, if the input current signal is reduced, the difference value of the input current signal is increased, the PDU is not precisely, and the PDU is controlled to be damaged, and the PDU is not accurately and the PDU is managed when the PDU is accurately and is managed.

In addition, the acquisition interface board 501 is connected with the PDU body 13 to acquire, then the acquisition conversion power supply 503 is used for supplying power to the acquisition main board 502, then the cloud chip 505 is used for carrying out cloud transmission on data operated by the PDU body 13 in real time, then the storage memory card 504 is used for storing and backing up the data of the PDU body 13, and then the current detector 506 is used for carrying out real-time detection on the current of the PDU body 13, compared with a traditional terminal chip, the cloud chip 505 has larger regulation model and more complex structure and stronger calculation capability, and can carry out cloud detection and storage on the data when the intelligent PDU is managed, so that the data is not easy to be lost and damaged during transmission, thereby improving the safety and stability of intelligent PDU data management;

Then, a movable plate 602 is fixedly arranged at the connecting end of the movable slide rail 601, the movable plate 602 is driven by the movable slide rail 601 to be adjusted left and right, then a side positioning block 604 is adjusted left and right by the movable end of a telescopic rod 603, then the PDU body 13 is installed by a main positioning block 606 and the side positioning block 604, intelligent PDUs with different sizes can be installed and used, and the intelligent PDUs with different sizes are managed and used, so that the expansibility of intelligent PDU installation is improved, wherein an equipment box 1 is fixedly arranged outside a placing frame 6, a lower fixing plate 101 is fixedly arranged inside the equipment box 1, and an upper fixing plate 102 is fixedly arranged at the top of the lower fixing plate 101.

It should be noted that, when the device works, the lower fixing plate 101 can be utilized to support the placement frame 6, and then the upper fixing plate 102 is utilized to support the integrated controller 4 and the collection box 5, so that the stability of using the device is improved, wherein the bottom of the lower fixing plate 101 is fixedly provided with the synchronization box 7, the surface of the synchronization box 7 is provided with the synchronization interface plate 701 in a penetrating way, the synchronization box 7 is internally and fixedly provided with the synchronization main plate 702, the top of the synchronization main plate 702 is electrically provided with the synchronization conversion power supply 703, one side of the synchronization conversion power supply 703 is electrically provided with the data synchronization chip 704, and one side of the data synchronization chip 704 is electrically provided with the low-power consumption synchronization step-down chip 705.

Further, the synchronization interface board 701 is connected to the PDU body 13 for synchronization, then the synchronization conversion power supply 703 is used to supply power to the synchronization motherboard 702, then the data synchronization chip 704 is used to synchronize the data of the PDU body 13 for transmission, and then the low-power-consumption synchronization buck chip 705 is used to synchronize the data of the PDU body 13 for transmission when the power consumption is low, so that the stability of the data synchronization of the PDU body 13 is improved, the data synchronization chip 704 can synchronize the data transmission between different devices, because the chip can control the clock signal through the internal circuit, when two or more devices need to exchange data, the synchronization chip can provide a reliable clock signal for them, so that the operation of the two or more devices is synchronous, and thus, the data transmission between the different devices can be accurately completed.

Still further, the bottom fixed mounting of synchronous case 7 has monitor case 8, and monitor interface board 801 is run through on the surface of monitor case 8, and monitor case 8's inside fixed mounting has monitor mainboard 802, and monitor conversion power 803 is installed to monitor mainboard 802's top electrical property, and data monitoring chip 804 is installed to monitor conversion power 803's one side electrical property, and remote monitoring chip 805 is installed to data monitoring chip 804's one side electrical property.

Besides, the monitoring interface board 801 is connected with the PDU body 13 for synchronization, then the monitoring conversion power supply 803 is used for supplying power to the monitoring main board 802, then the data monitoring chip 804 is used for monitoring the data of the PDU body 13, then the remote monitoring chip 805 is used for enabling a worker to remotely monitor the data of the PDU body 13, the data of the PDU body 13 can be abnormally monitored, when the abnormal condition occurs in the PDU body 13, the data monitoring chip 804 is used for collecting and processing various external signals through the signal conditioning and converting circuit, then the processed data are transmitted to external equipment through the communication interface, the communication interface generally comprises an analog signal input end, an analog-to-digital converting circuit, a digital processing circuit, a communication interface and other modules, the analog signal input end is used for receiving and amplifying external analog signals, such as various sensor signals of temperature, pressure, illumination and the like, the analog-to-digital converting circuit is used for converting continuous analog signals into discrete digital signals through the processes of sampling, quantization and the like, the digital processing circuit is used for carrying out filtering, amplifying, calculating, correcting and the like to extract useful information and data, and the communication interface is used for transmitting the processed data to a network or a communication platform or an internet of things.

In addition, the bottom fixed mounting of monitoring case 8 has verification case 9, and the surface of verification case 9 runs through and installs verification interface board 901, and the inside fixed mounting of verification case 9 has verification mainboard 902, verifies that the top electric installation of mainboard 902 verifies switching power supply 903, verifies that one side electric installation of switching power supply 903 has networking module 904, and one side electric installation of networking module 904 has authority access chip 905, and one side electric installation of authority access chip 905 has authority control chip 906.

It is worth mentioning that, through verifying interface board 901 and PDU body 13 go on information verification connection, then utilize verifying and converting the power 903 to supply power for verifying the motherboard 902, then utilize the networking module 904 to facilitate the staff to carry on the network access to PDU body 13, then utilize the authority to visit the chip 905 to visit PDU body 13's data, then utilize the authority to control the chip 906 to control PDU body 13's access information, can carry on the information encryption setting to PDU body 13, prevent PDU body 13 from receiving unauthorized visit, thus has promoted PDU body 13's security of information use, the authority visit chip 905 is to encrypt the chip data using the encryption algorithm, and embed the key into the chip, only can decrypt and visit the chip data with the right key;

The power box 10 is fixedly mounted on one side of the verification box 9, the storage battery 1002 is fixedly mounted in the power box 10, the power interface board 1001 is mounted on the surface of the power box 10 in a penetrating manner, the power interface board 1001 is electrically connected with the PDU body 13, and then the storage battery 1002 is used for carrying out emergency power supply on the PDU body 13 when a power failure occurs in a machine room, so that the management safety of the PDU body 13 is improved.

In addition, an upper connecting plate 2 is fixedly arranged at the top end of the inside of the equipment box 1, a sponge plate 201 is fixedly arranged at the bottom of the upper connecting plate 2, a drying plate 202 is fixedly arranged at the bottom of the sponge plate 201, a top connecting plate 14 is fixedly arranged at the top of the equipment box 1, a top mounting frame 1401 is fixedly arranged at the top of the top connecting plate 14, top mounting holes 1402 are formed in the top mounting frame 1401 in a penetrating manner, a bottom plate 3 is fixedly arranged at the bottom of the equipment box 1, a supporting bottom block 301 is fixedly arranged at the bottom of the bottom plate 3, an anti-skid pad 302 is fixedly arranged at the top of the supporting bottom block 301, a side connecting plate 15 is fixedly arranged at one side of the equipment box 1, a box door 11 is movably arranged on the surface of the equipment box 1 through a hinge, and a back plate 12 is fixedly arranged at one end of the inside the equipment box 1;

It should be noted that, the top inside the equipment box 1 is installed through the upper connecting plate 2, then the bottom of the upper connecting plate 2 is fixedly provided with the sponge board 201, then the bottom of the sponge board 201 is fixedly provided with the drying board 202, the inside of the equipment box 1 can be dried and used by utilizing the sponge board 201 and the drying board 202, thereby preventing the electric equipment from being corroded by moisture, then the bottom of the equipment box 1 is fixedly provided with the bottom plate 3, then the bottom of the bottom plate 3 is fixedly provided with the supporting bottom block 301, then the top of the supporting bottom block 301 is fixedly provided with the anti-skid pad 302, the equipment can be stably supported by utilizing the supporting bottom block 301 and the anti-skid pad 302, then the top connecting plate 14 is fixedly provided with the top connecting plate 14, then the top mounting frame 1401 is fixedly provided with the top mounting hole 1402 in a penetrating manner inside the top mounting frame 1401, and other equipment can be conveniently and movably mounted on the top of the top mounting frame 1401 by utilizing the top mounting frame 1401 and the top mounting hole 1402.

Wherein, a tool storage box 1501 is fixedly installed on one side of the side connecting plate 15, a tool door 1502 is movably installed on one side of the tool storage box 1501 through a hinge, an operation frame 1503 is fixedly installed on the top of the tool storage box 1501, and an illumination dome lamp 1504 is fixedly installed on the top of the operation frame 1503;

The tool door 1502 is movably opened and closed to movably place tools in the tool storage box 1501, and then an operator can conveniently place, detect and operate equipment by using the operation frame 1503, so that the detection convenience is improved.

It should be noted that, glass 1101 is installed inside the box door 11 in a penetrating manner, a door handle 1102 is fixedly installed on the surface of the box door 11, the box door 11 is pulled to be movably opened and closed through the door handle 1102, then a worker can observe the running condition in the equipment box 1 conveniently by using the glass 1101, a heat dissipation screen 1201 is fixedly installed inside the back plate 12, a wiring groove 1202 is arranged inside the heat dissipation screen 1201 in a penetrating manner, the equipment box 1 is subjected to heat dissipation through the heat dissipation screen 1201, and then wiring harnesses in the equipment box 1 are conveniently connected through the wiring groove 1202.

The working principle and the using flow of the invention are as follows:

When the device is used by a user, referring to the specification attached drawings 1, the specification attached drawings 2, the specification attached drawings 5, the specification attached drawings 6 and the specification attached drawings 9, when the device works, the door handle 1102 is used for pulling the door 11 to open and close actively, then the lower fixing plate 101 is used for supporting the placing frame 6, then the upper fixing plate 102 is used for supporting the integrated controller 4 and the collecting box 5, then the movable plate 602 is fixedly arranged at the connecting end of the movable slide rail 601, then the movable plate 602 is driven by the movable slide rail 601 to adjust left and right, then the movable end of the telescopic rod 603 is used for adjusting left and right, then the main positioning block 606 and the side positioning block 604 are used for installing the PDU body 13, so that intelligent PDUs with different sizes can be installed and used, then the upper connecting plate 2 is used for mounting at the top end of the inside of the equipment box 1, then the sponge plate 201 is fixedly mounted at the bottom of the upper connecting plate 2, then the drying plate 202 is fixedly mounted at the bottom of the sponge plate 201, the inside of the equipment box 1 can be dried and used by utilizing the sponge plate 201 and the drying plate 202, so that the electric equipment is prevented from being corroded by moisture, then the bottom plate 3 is fixedly mounted at the bottom of the equipment box 1, then the supporting bottom blocks 301 are fixedly mounted at the bottom of the bottom plate 3, then the anti-skid pads 302 are fixedly mounted at the top of the supporting bottom blocks 301, the equipment can be stably supported by utilizing the supporting bottom blocks 301 and the anti-skid pads 302, then the top connecting plate 14 is fixedly mounted at the top of the equipment box 1, then the top mounting frame 1401 is fixedly mounted at the top of the top connecting plate 14, then the top mounting holes 1402 are formed in the top mounting frame 1401 in a penetrating manner, the top mounting frame 1401 and top mounting holes 1402 can be utilized to facilitate the movable mounting of other devices on top of the top mounting frame 1401.

Next, referring to fig. 2 and 5 of the specification, connection control is performed between the PDU body 13 and the PDU body 401 through the integrated control interface board 401, then the current of the PDU body 13 is precisely positioned and regulated through the current sensor 402, then the voltage is automatically detected by the PDU body 13 through the voltage sensor 403, then the temperature of the PDU body 13 is detected through the temperature sensor 404, then the running power of the PDU body 13 is detected through the power sensor 405 in real time, then the automatic switching execution is performed when the data of the PDU body 13 is abnormal through the electric actuator 406, then the PDU body 13 is connected and collected through the collection interface board 501, then the collection and conversion power supply 503 is used for supplying power to the collection main board 502, then the cloud chip 505 is used for real-time cloud transmission of the data of the PDU body 13, then the storage and backup of the data of the PDU body 13 are performed through the storage memory card 504, then the current detector 506 is used for detecting the current of the PDU body 13 in real time, the synchronous interface plate 701 is used for connecting and synchronizing with the PDU body 13, then the synchronous conversion power supply 703 is used for supplying power to the synchronous main board 702, the data of the PDU body 13 is synchronously transmitted by the data synchronous chip 704, then the data of the PDU body 13 is synchronously transmitted when the power consumption is lower by the low-power-consumption synchronous buck chip 705, the monitoring interface plate 801 is used for connecting and synchronizing with the PDU body 13, the monitoring conversion power supply 803 is used for supplying power to the monitoring main board 802, the data monitoring chip 804 is used for monitoring the data of the PDU body 13, the remote monitoring chip 805 is used for enabling a worker to remotely monitor the data of the PDU body 13, the data of the PDU body 13 can be monitored abnormally, then, the authentication interface board 901 is used for information authentication connection with the PDU body 13, then the authentication conversion power supply 903 is used for supplying power to the authentication main board 902, the networking module 904 is used for facilitating networking access of staff to the PDU body 13, the authority access chip 905 is used for accessing data of the PDU body 13, and the authority control chip 906 is used for controlling access information of the PDU body 13;

Finally, referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 7 and fig. 8, the PDU body 13 is electrically connected with the power interface board 1001, then the PDU body 13 is powered on emergently when the power of the machine room is cut off by using the battery 1002, then the equipment box 1 is cooled by using the cooling screen 1201, then the wire harness inside the equipment box 1 is connected by threading by using the wire slot 1202, then the tool is movably placed in the tool storage box 1501 by using the tool door 1502 to be opened and closed, and then the equipment is conveniently placed by a worker by using the operation frame 1503 to be detected and operated.

The present invention is not limited in any way by the above-described preferred embodiments, but is not limited to the above-described preferred embodiments, and any person skilled in the art will appreciate that the present invention can be embodied in the form of a program for carrying out the method of the present invention, while the above disclosure is directed to equivalent embodiments capable of being modified or altered in some ways, it is apparent that any modifications, equivalent variations and alterations made to the above embodiments according to the technical principles of the present invention fall within the scope of the present invention.

Claims

1. The intelligent PDU management system based on cloud computing comprises an integrated controller, and is characterized in that an integrated control interface board is installed on the surface of the integrated controller in a penetrating manner, a current sensor is fixedly installed in the integrated controller, a voltage sensor is fixedly installed on one side of the current sensor, a temperature sensor is fixedly installed on one side of the voltage sensor, a power sensor is fixedly installed at the bottom of the current sensor, and an electric actuator is fixedly installed on one side of the power sensor;

The bottom of the collecting box is fixedly provided with a placing frame, the top end inside the placing frame is fixedly provided with a movable sliding rail, the top of the movable end of the movable sliding rail is fixedly provided with a movable plate, the other side of the movable plate is fixedly provided with a telescopic rod, the movable end of the telescopic rod is fixedly provided with a side positioning block, one side inside the placing frame is fixedly provided with a mounting plate, one side of the mounting plate is fixedly provided with a main positioning block, and the PDU body is movably arranged between the main positioning block and the side positioning block;

the device box is fixedly arranged outside the placement frame, the lower fixing plate is fixedly arranged inside the device box, and the upper fixing plate is fixedly arranged at the top of the lower fixing plate;

the bottom of the lower fixed plate is fixedly provided with a synchronous box, the surface of the synchronous box is provided with a synchronous interface plate in a penetrating way, the inside of the synchronous box is fixedly provided with a synchronous main board, the top of the synchronous main board is electrically provided with a synchronous conversion power supply, one side of the synchronous conversion power supply is electrically provided with a data synchronous chip for synchronizing data transmission among different devices, and one side of the data synchronous chip is electrically provided with a low-power consumption synchronous buck chip;

The bottom of the synchronous box is fixedly provided with a monitoring box, the surface of the monitoring box is provided with a monitoring interface board in a penetrating way, the inside of the monitoring box is fixedly provided with a monitoring main board, the top of the monitoring main board is electrically provided with a monitoring conversion power supply, one side of the monitoring conversion power supply is electrically provided with a data monitoring chip for monitoring the data of the PDU body, and one side of the data monitoring chip is electrically provided with a remote monitoring chip;

The bottom fixed mounting of monitoring case has the verification case, and the surface of verification case runs through and installs the verification interface board, and the inside fixed mounting of verification case has the verification mainboard, verifies that the top electric property of mainboard is installed and verifies switching power supply, verifies that one side electric property of switching power supply installs networking module, and one side electric property of networking module installs the authority access chip that is used for carrying out the access to the data of PDU body, and one side electric property of authority access chip installs the authority control chip.

2. The intelligent PDU management system based on cloud computing as claimed in claim 1, wherein a power box is fixedly installed on one side of the verification box, a storage battery is fixedly installed in the power box, and a power interface board is installed on the surface of the power box in a penetrating manner.

3. The cloud computing-based intelligent PDU management system according to claim 1, wherein an upper connection plate is fixedly installed at the top end of the inside of the equipment box, a sponge plate is fixedly installed at the bottom of the upper connection plate, a drying plate is fixedly installed at the bottom of the sponge plate, a top connection plate is fixedly installed at the top of the equipment box, a top installation frame is fixedly installed at the top of the top connection plate, top installation holes are formed in the inside of the top installation frame in a penetrating manner, a bottom plate is fixedly installed at the bottom of the equipment box, a supporting bottom block is fixedly installed at the bottom of the bottom plate, a non-slip mat is fixedly installed at the top of the supporting bottom block, a side connection plate is fixedly installed at one side of the equipment box, a box door is movably installed on the surface of the equipment box through a hinge, and a back plate is fixedly installed at one end of the inside of the equipment box.

4. The cloud computing-based intelligent PDU management system of claim 3, wherein a tool storage box is fixedly installed on one side of the side connecting plate, a tool door is movably installed on one side of the tool storage box through a hinge, an operation frame is fixedly installed on the top of the tool storage box, and an illumination dome lamp is fixedly installed on the top of the operation frame.

5. The intelligent PDU management system based on cloud computing as recited in claim 3, wherein glass is installed inside said door, and door handles are fixedly installed on the surface of said door.

6. The intelligent PDU management system based on cloud computing as recited in claim 3, wherein a heat dissipation screen is fixedly installed inside the back plate, and wiring grooves are formed in the heat dissipation screen in a penetrating mode.