CN111474492A - Mobile power supply detection method - Google Patents

Abstract

The invention discloses a mobile power supply detection method, wherein a plurality of mobile power supply detection interfaces are respectively arranged on a detection base corresponding to a plurality of mobile power supply detection grooves, when a detected mobile power supply is inserted into the detection groove on the detection base, all interface data lines of the corresponding mobile power supply are inserted into the mobile power supply interface detection interfaces matched with the mobile power supply, the detection test of the mobile power supply in each detection groove can be sequentially finished through a unified control instruction, and a detection result is displayed through an L ED (infrared) indicator lamp beside the detection groove.

Description

Mobile power supply detection method

Technical Field

The invention relates to the technical field of mobile power supplies, in particular to a state detection method of a shared mobile power supply.

Background

The shared mobile power supply industry in the mobile power supply industry is an important portable mobile power supply industry. The current sharing portable power source trade has been widely put into use, provides convenience for the public of society, and simultaneously along with the portable power source sharing site quantity that puts into use increases fast to and portable power source passes through long-time use, sharing portable power source operator need put into a large amount of time and personnel's cost and detect and test portable power source. The existing shared mobile power supply generally has a plurality of charging interfaces, interface detection is needed, whether the interfaces of the charging treasures are normal and stable is determined, the distribution quantity of the mobile power supplies is huge, the charging interface detection of the mobile power supply is complex, the mobile power supply detection cannot be rapidly performed, the positions of mobile power supply terminals where the problem interfaces are located are often determined by reporting information to maintenance personnel after the users find the faults and report the faults to a system, and subsequent maintenance work is performed, so that the mobile power supply state faults including the interface faults of the mobile power supply cannot be detected and maintained in advance, and the user experience of the mobile power supply leasing link can be seriously influenced.

Disclosure of Invention

In order to solve the above problems, an object of the present invention is to provide a detection method capable of efficiently detecting mobile power supplies in batches, so as to solve the problem that the conventional mobile power supply proposed in the background art needs to perform a mobile power supply detection mode including interface detection in the routine maintenance and repair process, thereby improving the detection efficiency and the detection accuracy of the mobile power supply. In order to achieve the purpose, the invention adopts the technical scheme that:

a detection method of a mobile power supply comprises the following steps:

installing a mobile power supply in a mobile power supply detection device, wherein the mobile power supply is installed in a detection slot position of the detection device;

all power lines of the mobile power supply are connected with mobile power supply interfaces of the same type correspondingly arranged on the discharging interface HUB assemblies on two sides of the detection groove;

displaying an ID information list of the mobile power supply inserted into each detection groove and position detection data of whether the corresponding mobile power supply is inserted into the detection groove on a detection interface of the upper computer;

inputting a detection starting instruction on an upper computer;

the contact terminal in the detection groove of the mobile power supply detection device comprises a power supply terminal and a mobile power supply state detection terminal, the mobile power supply is charged through the power supply terminal, and the charging state of the mobile power supply is detected through the mobile power supply state detection terminal;

sequentially controlling the connection of discharge interfaces connected with all charging wire connectors of each mobile power supply in each detection groove, and measuring discharge current data of the charging wire connectors of the mobile power supplies;

after the detection result of each mobile power supply is displayed in the information list corresponding to the ID of the mobile power supply, if the detection information shows that the mobile power supply passes the detection, if the data line structure of the mobile power supply detects that the mobile power supply has a fault, the type of the fault interface is marked in the information corresponding to the ID of the mobile power supply;

displaying the state of the corresponding mobile power supply data line in real time through an indicator light;

after detection is completed, the upper computer sends a power supply ejection control instruction to the detection device, and the detection device ejects the mobile power supply in the detection groove according to the control instruction.

The portable power source detection device is provided with three power source interfaces corresponding to each portable power source, and the power source interfaces of the same type are arranged in a row at intervals at positions on the detection device corresponding to a detection groove at the top end of the detection device; and the interface far away from the mobile power supply detection groove is provided with a mobile power supply detection interface patch cord which is connected with a power cord of the corresponding interface of the mobile power supply.

After detection is completed, before a power supply pop-up control instruction is sent to a detection device, an upper computer sends a state locking instruction, the detection device sets a mobile power supply inserted into a mobile power supply detection slot position to be in a locking state after receiving the state locking instruction, and when the mobile power supply pops up from the mobile power supply detection slot position, the popped-up mobile power supply is set to be in the locking state.

The method for logging in the detection system by the user comprises the following steps: opening a login interface of the detection system, and generating a login two-dimensional code by the detection system; scanning a two-dimensional code on an upper computer by using a mobile phone, and popping up a selection key for logging in a detection system or not by scanning the two-dimensional code to log in a detection interface through a mobile phone screen;

and inputting a login control command on the mobile phone, and completing entering a detection interface by the detection system.

The detection slot position of the detection device is provided with a contact terminal which is electrically connected with the mobile power supply, and the contact terminal comprises a power supply terminal and a mobile power supply state detection terminal; after the mobile power supply is inserted into the detection groove, the detection device charges the mobile power supply through the power supply terminal, and the ID information of the mobile power supply inserted into the detection groove is identified through the state detection terminal.

A mobile power supply detection system, which is arranged in a mobile power supply detection device, the system comprises:

the first receiving module is used for receiving a first detection control instruction sent by a local computer or a local server;

the first control module is connected with the first receiving module and used for controlling a power supply terminal in an electric connection terminal group of the mobile power supply detection device to supply power to the mobile power supply in the mobile power supply detection groove and controlling a mobile power supply detection terminal in the electric connection terminal group to receive a first mobile power supply detection signal of the mobile power supply;

the first storage module is connected with the mobile power supply detection terminal in the first electric connection terminal group, receives and stores the first mobile power supply detection signal, and sends the first mobile power supply detection signal to a local computer or a local server connected with the mobile power supply detection device through a first sending module;

the second receiving module is connected with the second control module, and the second control module receives a second detection control instruction sent by the local computer or the local server according to the second receiving module;

the second control module is connected with a second detection circuit, sequentially controls a discharging interface connected with a charging wire connector of the mobile power supply to be connected according to a second detection control instruction, and acquires discharging current information of each charging wire connector of the mobile power supply through the second detection circuit;

the second detection circuit obtains discharge current data of each mobile power supply charging wire joint as a second mobile power supply detection signal;

the third control module is respectively connected with the second detection loop, the first sending module and the first display module, receives the second mobile power supply detection signal and judges whether the charging connector of each mobile power supply is in a damaged state or not; the third control module controls the first sending module to send a second mobile power supply detection signal to a local computer or a local server connected with the mobile power supply detection device;

the third control module sends a mobile power supply state display instruction to the first display module according to the mobile power supply wiring state;

the first display module displays the state of each mobile power supply in the detection tank according to the mobile power supply state display instruction sent by the second control module;

the third receiving module is connected with the fourth control module, and the fourth control module receives a first pop-up control instruction sent by the local computer or the local server according to the third receiving module;

and the fourth control module controls the detection device to pop up the mobile power supply in the detection groove according to the first pop-up control instruction.

After detection is finished, the fourth control module controls the detection device to set the mobile power supply inserted into the mobile power supply detection slot position to be in a locking state before a power supply ejection control instruction is sent to the detection device.

The first display module displays the corresponding power line interface state of the mobile power supply by using the indicator lamp.

The detection slot position of the detection device is provided with a contact terminal which is electrically connected with the mobile power supply, and the contact terminal comprises a power supply terminal and a mobile power supply state detection terminal; after the mobile power supply is inserted into the detection groove, the detection device charges the mobile power supply through the power supply terminal, and the ID information of the mobile power supply inserted into the detection groove is identified through the battery information detection terminal.

After the second control module controls the second detection circuit to acquire the discharging current information of one charging wire connector of the mobile power supply, the discharging interface connected with the charging wire connector of the next mobile power supply is controlled to be switched on, and the discharging current information of the charging wire connector of the next mobile power supply is acquired through the second detection circuit.

Compared with the prior art, the invention has the following beneficial technical effects:

the mobile power supply detection method provided by the invention is characterized in that a plurality of mobile power supply detection interfaces are respectively arranged on a detection base corresponding to a plurality of mobile power supply detection grooves, when a detected mobile power supply is inserted into the detection groove on the detection base, all interface data lines of the corresponding mobile power supply are inserted into the mobile power supply interface detection interfaces matched with the mobile power supply detection grooves, the detection test of the mobile power supply in each detection groove can be sequentially finished through a unified control instruction, and the detection result is displayed through L ED indicating lamps beside the detection groove.

Drawings

Fig. 1 is a schematic structural diagram of a mobile power supply detection device according to the present invention;

FIG. 2 is a schematic flow chart illustrating a mobile power detection method according to the present invention;

fig. 3 is a schematic diagram of a mobile power detection system interface according to the present invention.

Reference numeral 1 detects the base, 2 first interface HUB discharge seats, 3 second interface HUB discharge seats, 4 portable power source detect the groove, 5 first type portable power source detect the interface, 6 second type portable power source detect the interface, 7 third type portable power source detect the interface, 8 portable power source status indicator lamps, 9 host computer communication interface, 10 portable power source, 11 first type portable power source interface, 12 second type portable power source interface, 13 third type portable power source interface, 14 patch cords

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be further clearly and completely described below with reference to the embodiments of the present invention. It should be noted that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", and the like, are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the present invention.

The terms "first," "second," "third," "fourth," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, the definitions of "first", "second", "third", "fourth" features may explicitly or implicitly include one or more of such features.

Fig. 1 shows a schematic structural diagram of a mobile power supply detection device of the present invention, which includes a mobile power supply detection base 1 and a discharging interface HUB assembly; the mobile power supply detection base comprises a base shell, wherein a mobile power supply detection device control module, a plurality of mobile power supply detection groove positions, a power supply module and a communication module are contained in the base shell, a contact terminal, a mobile power supply locking device and a mobile power supply popping device which are electrically connected with a mobile power supply are arranged in each detection groove position, each contact terminal comprises a power supply terminal and a mobile power supply state detection terminal, and after equipment is powered on, the mobile power supply detection device can supply power to the mobile power supply through the power supply terminals;

the portable power source detection base can be obtained by modifying the body structure of a conventional portable power source leasing terminal.

The plurality of mobile power supply detection grooves 4 are formed in the top of the mobile power supply detection base 1, and the power supply control module is electrically connected with the discharging interface HUB assemblies 2 and 3 and the mobile power supply 10 in the mobile power supply detection grooves 4;

the discharging interface HUB assembly comprises a control module, a discharging current detection circuit, a first interface HUB discharging seat 2 and a second interface HUB discharging seat 3; the first interface HUB discharging seat and the second interface HUB discharging seat are arranged at the top of the mobile power supply detection base 1 and are respectively arranged at two sides of the mobile power supply detection groove 4, the shell of the discharging seat can be made of 3D printing materials, the damaged shell can be conveniently replaced or maintained, and metal plates are respectively arranged at the bottoms of the first interface HUB discharging seat and the second interface HUB discharging seat and are fixed with the mobile power supply detection base 1; first interface HUB discharges seat 2 and sets up specifically be in be close to one side of first type power source interface when a plurality of portable power source detect the trench and insert portable power source, second interface HUB discharges the seat 3 and sets up a plurality of portable power source detect the opposite side of groove 4, first and second interface HUB discharge on the seat corresponding to the position in a plurality of portable power source detect the groove is provided with a plurality of portable power source respectively and detects the interface.

The position that first interface HUB discharged the seat upper surface and corresponds to a plurality of portable power source detect the trench is provided with a plurality of first type portable power source detection interface 5 respectively, and this first type portable power source detection interface 5 can select to lighting socket.

Further, the second interface HUB discharge seat is arranged on the other side of the plurality of mobile power supply detection slots, a plurality of second type mobile power supply detection interfaces 6 are respectively arranged on the upper surface of the second interface HUB discharge seat corresponding to the positions of the plurality of mobile power supply detection slots, and the second type mobile power supply detection interfaces 6 can be type-C interfaces; the second interface HUB discharge seat 3 is far away from one side of a plurality of portable power source detection trench is provided with a plurality of third type portable power source detection interfaces 7, the third type portable power source detection interface 7 can be the microUSB interface. The plurality of third-type mobile power supply detection interfaces 7 are arranged on the side edge of the second interface HUB discharge seat 3 far away from the plurality of mobile power supply detection grooves 4.

And a third-type mobile power supply detection interface patch cord 14 is installed on the third-type mobile power supply detection interface.

The control module of interface HUB subassembly that discharges is the master control MCU chip, first interface HUB discharges and discharges between the seat and the second interface UB discharge the seat through the winding displacement and connect to control through the master control MCU chip, the selection of master control MCU chip can be selected according to measurement parameter control demand, STM32-F103 for example.

Fig. 2 shows a schematic flow chart of the mobile power detection apparatus for testing the mobile power.

The detection method comprises the following steps:

step 1: installing a mobile power supply

1.1, installing a mobile power supply 10 in a mobile power supply detection groove 4 of a mobile power supply detection device 1;

1.2, all three power line interfaces (11, 12 and 13) of the mobile power supply 10 are connected with mobile power supply interfaces (5, 6 and 7) of the same type correspondingly arranged on the discharging interface HUB assemblies (2 and 3) at two sides of the detection tank 4; wherein, the interface 7 far away from the mobile power supply detection groove 4 is provided with a mobile power supply detection interface patch cord 14 to be connected with a power cord of a corresponding interface of the mobile power supply.

Step 2: enter the upper computer detection interface

2.1, opening a login interface of the detection system, and generating a login two-dimensional code by the detection system; scanning a two-dimensional code on an upper computer by using a mobile phone, and popping up a selection key for logging in a detection system or not by scanning the two-dimensional code to log in a detection interface through a mobile phone screen; alternatively, a username login may be used.

2.2 input login control command on the cell-phone, detecting system accomplishes and gets into the detection interface, the detection interface is as shown in figure 3, include the function setting that a key starts the test and advances and a key finishes the test, have portable power source state display area simultaneously, including showing the ID information list that inserts the portable power source in each detection groove on the upper computer detection interface in this area, and whether the position detection data that the corresponding portable power source inserted the detection groove, to the detection result display mode, set up independent information column corresponding to every trench: and respectively displaying the battery ID reading state, the confirmation of the arrival information of the mobile power supply and the test result of the power line structure, and having a test duration display unit.

And step 3: start-up detection

Inputting a detection starting instruction on an upper computer;

during a discharging test, unlocking the battery locking state in a single tested slot position, sequentially controlling the connection of discharging interfaces connected with all charging wire connectors of each mobile power supply in each detection slot, and measuring discharging current data of the charging wire connectors of the mobile power supplies; the specific test flow is as follows: and the 10 slot positions alternately test the charging function by corresponding to three interfaces of each slot position mobile power supply in sequence. And charging the battery in the slot position, recording the current condition and transmitting the current condition to the main control unit, and transmitting the main control unit to the upper computer for reading, and performing the next slot position test after the battery test of one slot position is completed.

After the detection result of each mobile power supply is displayed in the information list corresponding to the ID of the mobile power supply, if the detection information shows that the mobile power supply passes the detection, if the data line structure of the mobile power supply detects that the mobile power supply has a fault, the type of the fault interface is marked in the information corresponding to the ID of the mobile power supply;

and 4, step 4: detecting data presentation and popping of mobile power supply

Displaying the state of the corresponding mobile power supply data line in real time through an indicator light; each slot position is correspondingly provided with a three-color indicator lamp, and the state test result of the mobile power supply is displayed according to the lighting and flashing states of different colors of the indicator lamps. According to the specific test situation, the following can be set: and (5) turning off a lamp: not detect the treasured that charges and insert, the blue lamp is normally bright: detect the treasured that charges and insert, blue lamp scintillation: in the test, the green light is normally on: test pass, red light flash: the test fails, the red light is normally on: the user host computer sets the damaged state of the slot equipment.

After the detection is finished, the upper computer sends a power supply ejection control instruction to the detection device, and the detection device ejects the mobile power supply in the detection groove according to the control instruction; the upper computer sends a state locking instruction before sending a power supply pop-up control instruction to the detection device, the detection device sets the mobile power supply inserted into the mobile power supply detection slot position to be in a locking state after receiving the state locking instruction, and the mobile power supply popped up when the mobile power supply pops up from the mobile power supply detection slot position is in the locking state.

According to the display scheme, maintenance testers can quickly and intuitively know the test result of each mobile power supply.

The mobile power supply detection system is internally provided with the mobile power supply detection device and comprises a first receiving module, a first control module, a first storage module, a second receiving module, a third control module, a first sending module, a first display module and a third receiving module

The first receiving module is used for receiving a first detection control instruction sent by a local computer or a local server;

the first control module is connected with the first receiving module and used for controlling a power supply terminal in an electric connection terminal group of the mobile power supply detection device to supply power to the mobile power supply in the mobile power supply detection groove and controlling a mobile power supply detection terminal in the electric connection terminal group to receive a first mobile power supply detection signal of the mobile power supply;

the first storage module is connected with the mobile power supply detection terminal in the first electric connection terminal group, receives and stores the first mobile power supply detection signal, and sends the first mobile power supply detection signal to a local computer or a local server connected with the mobile power supply detection device through a first sending module;

the second receiving module is connected with the second control module, and the second control module receives a second detection control instruction sent by the local computer or the local server according to the second receiving module;

the second control module is connected with a second detection circuit, sequentially controls a discharging interface connected with a charging wire connector of the mobile power supply to be connected according to a second detection control instruction, and acquires discharging current information of each charging wire connector of the mobile power supply through the second detection circuit;

the second detection circuit obtains discharge current data of each mobile power supply charging wire joint as a second mobile power supply detection signal;

and the second control module controls the second detection circuit to obtain the discharging current information of one charging wire connector of the mobile power supply, then controls the discharging interface connected with the charging wire connector of the next mobile power supply to be switched on, and obtains the discharging current information of the charging wire connector of the next mobile power supply through the second detection circuit.

The third control module is respectively connected with the second detection loop, the first sending module and the first display module, receives the second mobile power supply detection signal and judges whether the charging connector of each mobile power supply is in a damaged state or not; the third control module controls the first sending module to send a second mobile power supply detection signal to a local computer or a local server connected with the mobile power supply detection device;

the third control module sends a mobile power supply state display instruction to the first display module according to the mobile power supply wiring state;

the first display module displays the state of each mobile power supply in the detection groove according to the mobile power supply state display instruction sent by the second control module, and displays the corresponding mobile power supply line interface state by using an indicator lamp.

The third receiving module is connected with the fourth control module, and the fourth control module receives a first pop-up control instruction sent by the local computer or the local server according to the third receiving module;

and the fourth control module controls the detection device to pop up the mobile power supply in the detection groove according to the first pop-up control instruction.

And the fourth control module controls the detection device to set the mobile power supply inserted into the mobile power supply detection slot position to be in a locking state before sending a power supply ejection control instruction to the detection device after detection is finished.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (10)

1. A detection method of a mobile power supply is characterized by comprising the following steps:

one or more mobile power supplies are installed in the detection slot position of the mobile power supply detection device;

all power lines of the mobile power supply are connected with mobile power supply interfaces of the same type correspondingly arranged on the discharging interface HUB assemblies on two sides of the detection groove;

displaying an ID information list of the mobile power supply inserted into each detection groove and position detection data of whether the corresponding mobile power supply is inserted into the detection groove on a detection interface of the upper computer;

inputting a detection starting instruction on an upper computer;

the mobile power supply detection device charges a mobile power supply in the detection groove;

sequentially controlling the connection of discharge interfaces connected with all charging wire connectors of each mobile power supply in each detection groove, and measuring discharge current data of the charging wire connectors of the mobile power supplies;

recording and displaying the ID of the mobile power supply and corresponding detection results of each mobile power supply, if the detection information is normal, displaying that the mobile power supply passes the detection, and if the mobile power supply data line structure detects that a fault exists, marking the interface type of the fault in the information corresponding to the ID of the mobile power supply;

after detection is completed, the upper computer sends a power supply ejection control instruction to the detection device, and the detection device ejects the mobile power supply in the detection groove according to the control instruction.

2. The method for detecting the mobile power supply of claim 1, wherein the mobile power supply detection device is provided with three power interfaces corresponding to each mobile power supply, and the power interfaces of the same kind are arranged in a row at intervals at positions on the detection device corresponding to detection grooves at the top end of the detection device; and the interface far away from the mobile power supply detection groove is provided with a mobile power supply detection interface patch cord which is connected with a power cord of the corresponding interface of the mobile power supply.

3. The method for detecting the mobile power supply of claim 1, wherein after detection is completed, the upper computer sends a state locking instruction before sending a power supply ejection control instruction to the detection device, and the detection device sets the mobile power supply inserted into the mobile power supply detection slot to be in a locking state after receiving the state locking instruction.

4. The method for detecting a portable power source of claim 1, wherein the method for using the user login detection system comprises the steps of: opening a login interface of the detection system, and generating a login two-dimensional code by the detection system; scanning a two-dimensional code on an upper computer by using a mobile phone, and popping up a selection key for logging in a detection system or not by scanning the two-dimensional code to log in a detection interface through a mobile phone screen;

and inputting a login control command on the mobile phone, and completing entering a detection interface by the detection system.

5. The method for detecting the mobile power supply of claim 1, wherein a contact terminal electrically connected with the mobile power supply is arranged in the detection slot of the detection device, and the contact terminal comprises a power supply terminal and a mobile power supply state detection terminal; after the mobile power supply is inserted into the detection groove, the detection device charges the mobile power supply through the power supply terminal, and the ID information of the mobile power supply inserted into the detection groove is identified through the state detection terminal.

6. A mobile power supply detection system is characterized in that the detection system is arranged in a mobile power supply detection device, and the system comprises:

the first receiving module is used for receiving a first detection control instruction sent by a local computer or a local server;

the first control module is used for controlling a power supply terminal in an electric connection terminal group of the mobile power supply detection device to supply power to the mobile power supply in the mobile power supply detection groove and controlling a mobile power supply detection terminal in the electric connection terminal group to receive a first mobile power supply detection signal of the mobile power supply;

the first storage module is connected with the mobile power supply detection terminal in the first electric connection terminal group, receives and stores the first mobile power supply detection signal, and sends the first mobile power supply detection signal to a local computer or a local server connected with the mobile power supply detection device through a first sending module;

the second receiving module is connected with the second control module, and the second control module receives a second detection control instruction sent by the local computer or the local server according to the second receiving module;

the second control module is connected with a second detection circuit, sequentially controls a discharging interface connected with a charging wire connector of the mobile power supply to be connected according to a second detection control instruction, and acquires discharging current information of each charging wire connector of the mobile power supply through the second detection circuit;

the second detection circuit obtains discharge current data of each mobile power supply charging wire joint as a second mobile power supply detection signal;

the third control module is respectively connected with the second detection loop, the first sending module and the first display module, receives the second mobile power supply detection signal and judges whether the charging connector of each mobile power supply is in a damaged state or not; the third control module controls the first sending module to send a second mobile power supply detection signal to a local computer or a local server connected with the mobile power supply detection device;

the third control module sends a mobile power supply state display instruction to the first display module according to the mobile power supply wiring state;

the first display module displays the state of each mobile power supply in the detection tank according to the mobile power supply state display instruction sent by the second control module;

the third receiving module is connected with the fourth control module, and the fourth control module receives a first pop-up control instruction sent by the local computer or the local server according to the third receiving module;

and the fourth control module controls the detection device to pop up the mobile power supply in the detection groove according to the first pop-up control instruction.

7. The mobile power detection system of claim 6, wherein after detection is completed and before a power pop-up control instruction is issued to the detection device, the fourth control module controls the detection device to set the mobile power inserted into the mobile power detection slot to a locked state.

8. The mobile power detection system of claim 6, wherein the first display module displays the corresponding power line interface status of the mobile power using an indicator light.

9. The mobile power detection system of claim 6, wherein the detection slot of the detection device has a contact terminal therein, the contact terminal being electrically connected to the mobile power source, the contact terminal including a power supply terminal and a mobile power state detection terminal; after the mobile power supply is inserted into the detection groove, the detection device charges the mobile power supply through the power supply terminal, and the ID information of the mobile power supply inserted into the detection groove is identified through the mobile power supply information detection terminal.

10. The mobile power supply detection system of claim 6, wherein the second control module controls the second detection circuit to obtain the discharging current information of a charging terminal of one mobile power supply, then controls a discharging interface connected to a charging terminal of a next mobile power supply to be connected, and obtains the discharging current information of the charging terminal of the next mobile power supply through the second detection circuit.

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