TWI530052B - Multi-port charging device for remote monitoring - Google Patents

Description

Multi-turn charging device for remote monitoring

The invention relates to a charging device, in particular to a multi-turn charging device which can be used for remote monitoring of multiple electronic devices at the same time, and can display the charging state in real time, and set the charging current and the transmission data via the remote control.

The application of portable electronic products has gradually spread to various levels of daily life. For data access applications, it can store traditional paper heavy data in electronic format, providing convenience and fast advantages when used anywhere, such as E-books, tablets, laptops or smart phones, etc., whose power supply is mainly based on the built-in battery.

In view of the above advantages, many schools or organizations have replaced traditional books with e-books, and e-books need to be recharged every few hours every day to maintain normal operation, and all e-books need to be charged at the same time. Save time on separate charging. However, often after the class, the e-book is inserted into the charger to charge and leave, that is, the e-book is placed in the charger for a whole night, and the traditional charger itself has no function of judging whether it has been fully charged, so the e-book or other The electronic device (such as a tablet computer) and the charger are always in a state of current circulation, causing component damage to the e-book for a long time, affecting the life, and the charger is also easily worn. In addition, the traditional charger can only be used for charging, and can not be used for data transmission of e-books or electronic devices. The user must remove the e-book and connect the data in other ways, which is very inconvenient to use; The device can only provide charging in a single state of charge, and cannot change the state of charge according to the amount of electricity of the electronic book or the electronic device, which indirectly causes overcharging or increases charging time.

Although some operators have developed a multi-turn charger to provide simultaneous charging, the above problems cannot be solved, and the traditional multi-turn charger can only know the charging status via the charging lamp on the charger, but the charging time is mostly the class time or rest time. If the management personnel want to know the state of charge, they must observe the charger light number in person to know the state of charge. Not only must the rest time be sacrificed, but the round-trip process is even more inconvenient.

An object of the present invention is to provide a multi-turn charging device capable of simultaneously charging, easily recognizing a state of charge, saving energy, and protecting a power supply device, and which can be understood by a remote end.

Another object of the present invention is to provide a multi-turn charging device for remote monitoring, which can adjust and update the charging mode of a multi-turn charging device by a remote monitoring station, and has the function of synchronous data transmission.

To achieve the foregoing objective, the multi-turn charging device for remote monitoring of the present invention comprises a body having a circuit board mounted thereon, the circuit board is provided with a plurality of current detecting components and a processing unit, and a management unit is built therein. a charging unit, disposed on one side of the body, the charging portion includes a plurality of docking ports for connecting the electronic devices for charging, and each of the docking electrodes is electrically connected to the current detecting component; A transmission unit is electrically connected to the circuit board of the main body, and includes a transmission component, an Ethernet connection port, and a signal transceiver port. The transmission component is coupled to the circuit board, and the signal transceiver port is connected to the circuit board. Antenna for wireless signal transmission and reception. The plurality of current detecting components are configured to detect at least the charging current of the electronic devices and generate a detecting signal, wherein the transmitting component transmits the wired transmission through the Ethernet or the wireless through the signal transmitting and receiving port. Transmitting to at least one remote monitoring station, so that the remote monitoring station knows the charging status of each electronic device, and transmits a message to the processing unit through the transmission unit transmission unit to adjust the charging of each pair of connected electronic devices. The state of the charging state includes at least a fast charging mode, a slow charging mode, an adjustment mode, an energy saving mode, and an improper docking mode. Therefore, the multi-turn charging device of the present invention is used to provide fast and effective overall monitoring control for all connected electronic devices, so as to achieve a labor-saving and power-saving charging mode.

According to a preferred embodiment of the present invention, the multi-turn charging device further includes a data transmission port and a expansion port, which are respectively disposed on the other side of the body, and the expansion port is used to connect another The charging device is configured to increase the number of the docking ports, and the data transmitting port is configured to connect to a remote device, which can synchronously update program data in the electronic devices. The expansion port has an RS485 transmission interface, which can receive or transmit the detection signals of the plurality of docking ports in a one-to-many manner, and the data transmission port has a USB transmission interface or a Micro USB transmission interface.

According to another preferred embodiment of the present invention, the processing unit can control switching of the multi-turn charging device to enter an automatic scanning function, an energy saving function, a maximum charging current, and a minimum charging current setting via the remote monitoring station. Function, the automatic scanning function scans the plurality of docking ports to detect the charging state of each pair of ports, and the energy saving function activates the energy saving mode.

According to another preferred embodiment of the present invention, when the plurality of electronic devices are connected to the plurality of docking ports, the processing unit simultaneously checks each electronic device through a wired/wireless network connection between the transmitting unit and the remote monitoring station. Whether the file program in the device meets the standard setting, if the standard setting is not met, the processing unit can update according to the data provided by the remote monitoring station.

According to another preferred embodiment of the present invention, the fast charging mode of the charging state outputs a first current in a first time, and the slow charging mode outputs a second current in the first time, the first The current is greater than the second current, and the adjustment mode outputs a third current that is less than the second current or equal to zero during the first time, and the improper docking mode does not output current.

The multi-turn charging device for remote monitoring can charge a plurality of electronic devices through a plurality of docking devices, and wirelessly transmit the charging state of each docking port to at least one remote monitoring station by using a wireless transmission technology, so that the monitoring station can be remotely The terminal can know the state of charge, and the remote can update the setting value of the charging mode of any docking port through the management program of the processing unit, or check and update the file program synchronization in any docking electronic device. The data transmission operation can also be performed by the remote end through the wireless transmission technology through the multi-turn charging device and any electronic device that can be remotely monitored. It effectively solves the shortcomings that the traditional charger cannot understand the charging status by the remote end, synchronously update the charging mode by the remote end, and transmit data.

Multi-turn charging device 1
Ontology 2
Circuit board 21
Current detecting element 22
Processing unit 23
Management program 231
Charging unit 3
Docking 埠31
Indicator light 32
Transmission unit 33
Antenna 330
Transmission component 331
Ethernet connection 埠332
Signal transceiver port 333
Data transmission 埠334
Control unit 4
Setting component 41
Display element 42
Display screens 421, 422
Power connection 埠5
Expansion connection 埠51
Electronic device 6
Remote monitoring station 60
Switch module 7
Toggle the off 71
Scanning module 8
Scanning element 82
Scanning indicator 81
State of charge 9
Fast charge mode 91
Slow charging mode 92
Adjustment mode 93
Improper docking mode 94
Energy saving mode 95
Battery protection mode 96

The first figure is a three-dimensional combination diagram of a multi-turn charging device for remote monitoring of the present invention.
The second figure is a three-dimensional combination diagram of another angle of the multi-turn charging device for remote monitoring of the present invention.
The third figure is a partial cross-sectional view of the first figure.
The fourth figure is a charging block diagram of a multi-turn charging device that can be remotely monitored according to the present invention.

The present invention discloses a multi-turn charging device 1 for remote monitoring, which is used to provide simultaneous charging of a plurality of electronic devices 6, and can transfer the state of charge of each electronic device 6 to at least one remote monitoring station 60 for monitoring or For the purpose of setting, the electronic devices 6 may be of the same type, or different types of electronic devices 6, such as electronic devices having charging functions such as e-books, mobile phones, notebooks, and tablets.

Please refer to FIG. 1 to FIG. 3 for a preferred embodiment of the multi-turn charging device for remote monitoring according to the present invention. The multi-turn charging device 1 for remote monitoring of the present invention includes a body 2 and a charging device. The unit 3, a transmission unit 33, a control unit 4, and a power connection port 5 are connected to an external power source. The main body 2 is a casing of the multi-turn charging device 1 of the present invention, and a circuit board 21 is fixed in the circuit board 21, and the circuit board 21 is provided with a plurality of current detecting elements 22 and a processing unit 23, wherein the processing unit 23 can be a The microchip has a management program 231 installed therein. The charging portion 3 and the control portion 4 are disposed on one side of the main body 2, and the power connection port 5 and other components (as will be described later) are provided on the other side.

The charging unit 3 includes a plurality of docking ports 31 for connecting the electronic devices 6 for charging. In this embodiment, the number of the plurality of docking ports 31 is 16, and each pair of ports 31 respectively has an apostrophe, that is, 01 to 16, in other words, the multi-turn charging device 1 for remote monitoring of the present invention can simultaneously The 16 electronic devices 6 are simultaneously charged, but not limited thereto, and the number of docking ports 31 can be determined according to actual needs and the volume of the multi-turn charging device 1 that can be remotely monitored. In this embodiment, the plurality of docking ports 31 uniformly use the USB interface to connect the electronic devices, but in another implementation, different interface mixing may be used, for example, the partial plurality of docking ports 31 are Micro USB interfaces, some are USB interfaces, and the other portions are For Dock (30pin) jacks, use products specifically for Apple computers (such as Ipad). Specifically, one side of each pair of ports 31 is provided with an indicator light 32 and electrically connected to a current detecting element 22 (as shown in the third figure); in other words, each pair of ports 31 and each indicator light 32 is electrically connected to a corresponding current detecting component 22, so that the current detecting component 22 can separately perform charging current detection on an electronic device.

The transmission unit 33 is electrically connected to the circuit board 21 of the body 2, and includes a transmission component 331, an Ethernet port 332, and a signal transceiver port 333. The transmission component 331 is a microchip coupled to the circuit board 21. The signal transceiver port 333 is disposed on the rear side of the main body 2, and is connected to the same side of the Ethernet port 332 and the power port 5, and the signal transceiver port 333 can be directly connected to an antenna 330, or can be indirectly connected to the antenna by a cable. For wireless signal transmission and reception. The Ethernet port 332 is connected to a remote monitoring station 60 using an RJ45 network route, and the remote monitoring station 60 can be a PC.

In addition, the multi-turn charging device 1 of the present invention further includes a data transmission port 334 and a expansion port 51, which are respectively disposed on the rear side of the body 2. The expansion port 51 has an RS485 transmission interface for connecting another multi-turn charging device (not shown). In other words, the number of the multi-turn charging device 1 of the present invention can be expanded by the connection of the RS485 connector to form 2 There are even more than one charging device in the station to increase the number of docking ports 31 for charging more electronic devices. The RS485 expansion port 51 can receive or transmit the plurality of docking ports 31 in a one-to-many manner. Signal, but the transmission interface is not limited to RS485. Other transmission interfaces that can be used for connection expansion can also be applied.

The data transmission port 334 is a USB transmission interface or a Micro USB transmission interface for connecting a remote device (not shown), which can synchronously update program data in the electronic devices 6. In particular, the transmission component 331, the Ethernet port 332, and the signal transceiving port 333 of the transmission unit 33 can be integrated into an external box (not shown), and the external box can transmit data through the USB interface. The 埠334 is connected to the multi-turn charging device 1 of the present invention. At this time, the processing unit 23 automatically determines that the multi-level charging device 1 is connected to the remote monitoring by the Ethernet box 332 in the external box or the body 2. station.

Please refer to FIG. 4 is a schematic diagram of a charging block of a multi-turn charging device for remote monitoring according to the present invention. When the electronic device 6 is connected to the plurality of docking ports 31 for charging, the plurality of current detecting elements 22 are used. The charging currents of the electronic devices 6 are respectively detected, and a detection signal is fed back to the plurality of indicator lights 32, so that each indicator light 32 displays a corresponding charging state 9 according to the signal, and the charging state 9 includes at least A fast charge mode 91, a slow charge mode 92, an adjustment mode 93, an improper docking mode 94, and an energy saving mode 95. Specifically, the management program 231 of the processing unit 23 is configured to collect at least the detection signal and transmit it to the transmission component 331 of the transmission unit 33, and then transmit or receive the signal through the Ethernet connection port 332. The wireless transmission of the port 333 is transmitted to the at least one remote monitoring station 60, so that the remote monitoring station 60 knows the charging state of the electronic device 6 in each charging, via the remote transmitting transmission unit 33 and the multi-turn charging device 1 of the present invention. Constructing a wired or wireless network connection, and then adjusting the charging state 9 of each pair of electronic devices 6; in other words, the charging state 9 fast charging mode 91, slow charging mode 92, adjustment mode 93, improper The set values of the docking mode 94 and the energy saving mode 95 can be monitored and controlled by the remote monitoring station 60 and directly updated, wherein the wireless transmission mode can be Wi-Fi wireless transmission or other means available for wireless transmission.

In addition, the multi-charge charging device 1 for remote monitoring of the present invention can also check whether the internal file program of each pair of interfaces 31 meets the standard setting for each pair of electronic devices 6 of the interface 31. Specifically, when the plurality of electronic devices 6 are connected to the plurality of docking ports 31, the processing unit 23 is configured to be wired or wireless through the Ethernet or data transmission port 334 and the remote monitoring station 60 (or the remote device). The network is connected to check whether the file program in each electronic device 6 meets the standard setting. If the standard setting is not met, the processing unit 23 can update according to the data provided by the remote monitoring station 60. For example, the standard setting It is checked whether the specific program in the electronic device 6 is the latest version. If it is not the latest version, the wireless transmission connector 332 can receive the latest data transmitted by the remote monitoring station, and is uniformly controlled by the processing unit 23, and then connected by the wireless transmission connector 332. The update data is transmitted to the electronic device 6 of each pair of ports 31 for updating. Or in another implementation, the remote monitoring station 60 can directly clear files or programs in the electronic device 6 that do not meet the standard settings.

The fast charging mode 91 of the charging state 9 of the present invention outputs a first current in a first time; the slow charging mode 92 outputs a second current in the first time, the first current is greater than the second current; The adjustment mode outputs a third current that is less than the second current or equals zero during the first time; the improper docking mode 94 indicates that the electronic device is not properly connected and therefore is not charged. Specifically, the fast charge mode 91 indicates that the electronic device 6 is in a situation where the power is seriously insufficient. If the power is less than one-half of the power saturation, the charging current is large to complete the charging quickly. The slow charging mode 92 indicates that the electronic device 6 has sufficient power but is not full, so the charging current in the same relative time is less than the charging current in the fast charging mode 91. The adjustment mode 93 indicates that the current of the electronic device 6 is full, and the multi-turn charging device 1 for remote monitoring is no longer charged, and the current value is zero, or the charging current is maintained at a minimum current.

In particular, the remote monitoring station 60 can set the charging start time and interval time in the charging modes 91 to 96 in any state of charge 9 to further improve the charging efficiency of the present case. For example, when the charging state 9 is the slow charging mode 92, the remote monitoring station 60 can set the charging of the electronic device to 85%, that is, directly enter the adjustment mode 93 or the energy saving mode 95. At this time, the power of the electronic device 6 is sufficient for long-term use.

The plurality of indicator lights 32 can represent the state of charge 9 in a different manner according to the design. The indicator light 32 can be an LED component. In an embodiment, the plurality of indicator lights 32 can represent different modes of the state of charge in different colors, and In the embodiment, the plurality of indicator lights 32 can be respectively indicated by blinking in the fast charging mode 91 and the slow charging mode 92, and the brightness is indicated in the adjustment mode 93, and is not illuminated in the improper docking mode 94, so that when the user finds If the light is not on, it means that it is not connected, and then it can be reconnected correctly; in the fast charge mode 91, the number of flashes is more than the number of flashes in the slow charge mode 92, so that the difference can be used together with different color changes for identification. If yes, the multi-turn charging device 1 for remote monitoring can perform current detection according to the charging current, and the corresponding charging state 9 is displayed by the plurality of indicator lights 32, so that the user can quickly and easily recognize the electronic device at the moment. The charging is either full (adjustment mode 93), not fully charged (fast charge mode 91), fast full (slow charge mode 92) or no normal connection (inappropriate docking mode 94). Further, according to the different remaining power of the electronic device 6, an appropriate charging current is provided to achieve the function of power saving, and the same current magnitude can be maintained after being fully charged, thereby easily causing damage to the electronic device 6, and the protection electronic device is invisible. The effect.

Continuing to refer to the first figure, the multi-turn charging device 1 for remote monitoring of the present invention further includes a control unit 4 disposed beside the charging unit 3, including a setting component 41 and a display component 42. The setting component 41 can be A set of keys, or a rotary switch (not shown); the display element 42 includes a plurality of display screens 421 and 422, respectively arranged above, in another embodiment, the display element 42 can be a display screen, such as Small LCD screen (not shown). Another feature of the present invention is that the setting component 41 is configured to select any of the plurality of docking ports 31, and the display component 42 is configured to display the apostrophe of the selected docking port 31 and a corresponding charging current. In actual operation, pressing the setting button of the setting component 41 can display the apostrophe of the selected docking cassette 31 on the display screen 421, such as the apostrophe 10, and then press the setting component 41 to increase or decrease the apostrophe number until the desired one is selected. The docking port 31, and the other display screen 422 corresponds to the corresponding charging current value of the selected docking port 31. If the charging current is 1400 mA, the display is 1.40 amps, whereby the user can learn from the indicator light 32. In the state of charge, the accurate charging current value of the selected interface 31 can be clearly known by the display element 42. In addition, the setting component 4 can be further configured to set the maximum charging current and the minimum current of the selected docking port, which can be determined according to each electronic device. The setting manner is as described above, and the pair of interfaces 31 are selected, and then the preset operation is performed. The mode presses the setting button of the setting component 41 to increase or decrease the maximum charging current value and the minimum current value to be set. Protect battery life and save energy by setting maximum and minimum currents. In addition to the maximum and minimum current settings for the single docking port 31, the setting component 4 can also be set once for the full docking port 31.

In addition, the energy saving mode 95 of the remote monitoring multi-charge charging device of the present invention has a battery protection mode 96, and the current detecting component 22 detects that the electronic device 6 is in standby power saving when charging. In the state, the multi-turn charging device 1 of the present invention for remote monitoring does not charge the electronic device 6. However, when the electronic device 6 is in the standby state for a long time, its battery consumes less power, and the battery is in a low state or even tends to have a very low power and affects the battery life. For the foregoing situation, when the current detecting component 22 detects When it is detected that the remaining power of the electronic device in the power-saving state is lower than a lower limit standard, if the remaining power is only 10% of the saturated power of the electronic device, the charging portion 3 automatically performs charging to ensure the electronic device The battery will not be damaged due to being in a low battery state.

In another implementation, when any of the docking ports 31 of the charging unit 3 is not connected to an electronic device, the charging state of the docking port 31 that is not docked with the electronic device enters the energy saving mode 95, and the charging function is turned off. In order to save the power consumption of the multi-charge charging device 1 of the present invention which can be remotely monitored.

Continuing to refer to the third figure, the multi-turn charging device 1 for remote monitoring of the present invention further includes a scanning module 8 for performing an automatic scanning function, which includes at least a scanning component 81 and a scanning indicator light 82. The scanning component 81 can be used to automatically scan the plurality of docking ports 31 one by one to automatically detect the charging state of each pair of ports 31, and display the apostrophes and charging currents of the scanned docking ports 31 on the display component 42. The scan indicator light 82 is used to display that the scan module 8 is performing an automatic scan. The aforementioned scanning time can be set according to actual needs, for example, it can be set to automatically scan every 5 seconds, 10 seconds, 15 seconds and 30 seconds. Thereby, the user does not need to manually select the docking port 3 via the control unit 4, thereby effectively improving the convenience of monitoring the charging state of each port. In addition, the processing unit 23 can be controlled by the remote wireless transmission to switch the multi-turn charging device 1 for remote monitoring into the automatic scanning function, an energy saving function, and a setting function of a maximum charging current and a minimum charging current. The energy saving function is to start the energy saving mode 95.

Referring to the second embodiment of the present invention, in addition to the functions of the multi-turn charging device 1 being controlled by the remote control, a switching module 7 having a switch module 7 disposed on the same side of the main body 2 as the power connection port 5 may be provided. The plurality of toggle switches 71 are also used as a function of switching the automatic scanning function of the scanning module 8, the energy saving function of the energy saving mode 95, and the maximum current and minimum current.

In summary, the remote monitoring multi-turn charging device 1 of the present invention charges a plurality of electronic devices 6 through a plurality of docking ports 31, and instantaneously transmits the charging state of each pair of ports 31 to at least one by wireless or wired transmission technology. The remote monitoring station enables the monitoring station to know the charging status from the remote end, and can further update the setting value of the charging mode of any of the docking ports 31 via the management program 231 of the processing unit 23, or for any docking port. The file program in the electronic device 6 of 31 is checked and updated simultaneously, and the remote terminal can perform data transmission operation for any electronic device 6 by wireless or wired transmission technology. Therefore, the multi-turn charging device 1 for remote monitoring of the present invention can provide multiple simultaneous charging, and the wireless device can be wirelessly or wiredly connected to the remote monitoring station and the electronic device 6 of the docking device 31, thereby effectively solving the traditional charger. The shortcomings of the charging status, the charging mode being updated by the remote end, and the transmission of data cannot be known by the remote end.

The above detailed description is intended to be illustrative of a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and other equivalents and modifications may be made without departing from the spirit of the invention. Changes are intended to be included in the scope of the patents covered by the present invention.

Multi-turn charging device 1
Ontology 2
Circuit board 21
Current detecting element 22
Processing unit 23
Charging unit 3
Docking 埠31
Indicator light 32
Transmission unit 33
Antenna 330
Transmission component 331
Control unit 4
Setting component 41
Display element 42
Display screens 421, 422
Scanning module 8
Scanning element 81
Scanning indicator 82

Claims (10)

A multi-turn charging device for remote monitoring is provided for providing a plurality of electronic devices for simultaneous charging. The multi-turn charging device for remote monitoring comprises: a body having a circuit board mounted thereon, the circuit board being mounted a plurality of current detecting components and a processing unit having a management program built therein; a charging portion disposed on one side of the body, the charging portion including a plurality of docking ports for connecting the electronic devices for charging Each of the pairs is electrically connected to the current detecting component; a transmitting unit is electrically connected to the circuit board of the body, and includes a transmitting component, an Ethernet port, and a signal transceiver port, and the transmitting The component is coupled to the circuit board, and the signal transceiver port is connected to an antenna for wireless signal transmission and reception; and a data transmission port and a expansion port are respectively disposed on the other side of the body, the expansion The connection port is used to connect another plurality of charging devices to increase the number of the docking ports, and the data port is used to connect to a remote device, which can synchronously update program data in the electronic devices; The plurality of current detecting components are configured to detect at least the charging current of the electronic devices and generate a detecting signal, wherein the transmitting component transmits the wired transmission through the Ethernet or the wireless through the signal transmitting and receiving port. Transmitting to at least one remote monitoring station, so that the remote monitoring station knows the charging status of each electronic device, and transmits a message to the processing unit through the transmitting unit to adjust the charging state of each pair of connected electronic devices. The state of charge includes at least a fast charge mode, a slow charge mode, an adjustment mode, an energy saving mode, and an improper docking mode. The multi-charge charging device for remote monitoring, as described in claim 1, wherein the expansion port has an RS485 transmission interface, which can receive or transmit the detection signals of the plurality of docking ports in a one-to-many manner. The data transmission port has a USB Transfer interface or Micro USB transfer interface. For example, in the multi-pronged charging device for remote monitoring, the one side of each pair of ports is further provided with an indicator light for displaying a corresponding charging state according to the detecting signal. The multi-layer charging device for remote monitoring, as described in claim 1, wherein when any one of the charging portions is not connected to an electronic device, the charging state of the docking device that is not docked with the electronic device Enter the energy saving mode and turn off the charging function. The multi-turn charging device for remote monitoring as described in claim 1 further includes a control unit including a setting component and a display component, wherein the plurality of docking ports respectively have an apostrophe, the display component The nickname for the selected docking port and a corresponding charging current are used to select any of the docking ports and set the maximum charging current and minimum current of the selected docking port. The multi-turn charging device for remote monitoring, as described in claim 5, further comprising a scanning module, comprising at least one scanning component and a scanning indicator light, the scanning component is used for automatically or according to the setting The plurality of docking ports perform a timed scan to detect the charging state of each pair of ports, and display the scanned nickname and charging current on the display component, and the scan indicator light is used to display that the scanning module is Perform an automatic scan. A multi-turn charging device for remote monitoring is provided for providing a plurality of electronic devices for simultaneous charging. The multi-turn charging device for remote monitoring comprises: a body having a circuit board mounted thereon, the circuit board being mounted a plurality of current detecting components and a processing unit having a management program built therein; a charging portion disposed on one side of the body, the charging portion including a plurality of docking ports for connecting the electronic devices for charging Each pair of contacts is electrically connected to the current detecting component; and A transmission unit is electrically connected to the circuit board of the main body, and includes a transmission component, an Ethernet connection port, and a signal transceiver port. The transmission component is coupled to the circuit board, and the signal transceiver port is connected to the circuit board. An antenna for transmitting and receiving wireless signals; wherein the plurality of current detecting components are configured to detect at least a charging current of the electronic devices and generate a detecting signal, wherein the transmitting component transmits the Ethernet through the Ethernet Wired transmission or wireless transmission through the signal transceiving port to at least one remote monitoring station, so that the remote monitoring station knows the charging status of each electronic device, and transmits a message to the processing unit through the transmission unit, for each The pair of connected electronic devices adjusts the charging state thereof, and the charging state includes at least a fast charging mode, a slow charging mode, an adjustment mode, an energy saving mode, and an improper docking mode; the processing unit can control switching the multi-turn via the remote monitoring station The charging device enters an automatic scanning function, an energy saving function, and a setting function of a maximum charging current and a minimum charging current. Scanning the plurality of scan function docking port, the docking port to the state of charge of each detector, the energy saving function of the energy-based power-saving mode starts. A multi-turn charging device for remote monitoring is provided for providing a plurality of electronic devices for simultaneous charging. The multi-turn charging device for remote monitoring comprises: a body having a circuit board mounted thereon, the circuit board being mounted a plurality of current detecting components and a processing unit having a management program built therein; a charging portion disposed on one side of the body, the charging portion including a plurality of docking ports for connecting the electronic devices for charging Each of the pair of terminals is electrically connected to the current detecting component; and a transmitting unit is electrically connected to the circuit board of the body, and includes a transmitting component, an Ethernet port, and a signal transceiver port. The transmission component is coupled to the circuit board, and the signal transceiver port is connected to an antenna for wireless signal reception. The plurality of current detecting components are configured to detect at least the charging current of the electronic devices and generate a detecting signal, wherein the transmitting component transmits or transmits the wired transmission through the Ethernet Wirelessly transmitting the signal transceiving port to at least one remote monitoring station, so that the remote monitoring station knows the charging status of each electronic device, and transmits a message to the processing unit through the transmitting unit for each pair of connected electronic devices Adjusting a charging state thereof, the charging state includes at least a fast charging mode, a slow charging mode, an adjustment mode, an energy saving mode, and an improper docking mode; when the plurality of electronic devices are connected to the plurality of docking ports, the processing unit transmits the transmitting unit and The wired or wireless network connection of the remote monitoring station synchronously checks whether the file program in each electronic device meets the standard setting. If the standard setting is not met, the processing unit can update according to the data provided by the remote monitoring station. . A multi-turn charging device for remote monitoring is provided for providing a plurality of electronic devices for simultaneous charging. The multi-turn charging device for remote monitoring comprises: a body having a circuit board mounted thereon, the circuit board being mounted a plurality of current detecting components and a processing unit having a management program built therein; a charging portion disposed on one side of the body, the charging portion including a plurality of docking ports for connecting the electronic devices for charging Each of the pair of terminals is electrically connected to the current detecting component; and a transmitting unit is electrically connected to the circuit board of the body, and includes a transmitting component, an Ethernet port, and a signal transceiver port. The transmission component is coupled to the circuit board, and the signal transceiver port is connected to an antenna for wireless signal transmission and reception; wherein the plurality of current detecting components are configured to detect at least the charging current of the electronic devices and generate a detection a test signal, which can be wirelessly transmitted to the at least one through the wired transmission of the transmission element through the Ethernet or through the signal transceiving port The remote monitoring station enables the remote monitoring station to know the charging status of each electronic device, and transmits a message to the processing unit through the transmitting unit to adjust the charging state of each pair of connected electronic devices, the charging state is at least The method includes a fast charge mode, a slow charge mode, an adjustment mode, an energy save mode, and an improper docking mode; the fast charge mode of the charge state outputs a first current in a first time, and the slow charge mode is at the first time A second current is outputted, the first current is greater than the second current, and the adjustment mode outputs a third current that is less than the second current or equal to zero in the first time, and the improper docking mode does not output current. A multi-turn charging device for remote monitoring is provided for providing a plurality of electronic devices for simultaneous charging. The multi-turn charging device for remote monitoring comprises: a body having a circuit board mounted thereon, the circuit board being mounted a plurality of current detecting components and a processing unit having a management program built therein; a charging portion disposed on one side of the body, the charging portion including a plurality of docking ports for connecting the electronic devices for charging Each of the pair of terminals is electrically connected to the current detecting component; and a transmitting unit is electrically connected to the circuit board of the body, and includes a transmitting component, an Ethernet port, and a signal transceiver port. The transmission component is coupled to the circuit board, and the signal transceiver port is connected to an antenna for wireless signal transmission and reception; wherein the plurality of current detecting components are configured to detect at least the charging current of the electronic devices and generate a detection a test signal, which can be transmitted to the at least one remote monitoring station by the wired transmission of the transmission component through the Ethernet or through the wireless transceiver port, so that the remote monitoring station a charging state of each electronic device, and transmitting a message to the processing unit through the transmitting unit, to adjust a charging state of each pair of connected electronic devices, the charging state including at least a fast charging mode, a slow charging mode, an adjustment mode, Energy saving mode and improper docking mode; the energy The power saving mode further includes a battery protection mode. When the current detecting component detects that the electronic device is in a power saving state when charging, the multi-turn charging device enters an energy saving mode without charging; When the current detecting component detects that the remaining power of the electronic device in the power saving state is lower than a lower limit standard, the multi-turn charging device automatically performs charging to ensure that the battery of the electronic device is not in a low battery state. damage.