CN114825533A - Charging cabinet and control method thereof - Google Patents

Abstract

The embodiment of the application discloses a charging cabinet and a control method thereof, wherein the charging cabinet comprises at least one charging grid, the charging grid comprises a charging voltage output device, and the method comprises the following steps: acquiring integrated circuit card information and verifying the integrated circuit card information; when the verification is successful, displaying a charging interface, wherein the charging interface comprises an input control for inputting a target charging grid; responding to a first operation acted on the input control, and acquiring the target charging grid; opening a cabinet door of the target charging grid; supplying power to the charging voltage output device of the target charging grid so that the charging voltage output device charges the mobile power supply in the target charging grid. The centralized charging management of the mobile power supply is realized, the situation that a user independently uses a charging device to charge the mobile power supply is avoided, and the potential safety hazard of production is reduced.

Description

Charging cabinet and control method thereof

Technical Field

The application relates to the technical field of charging, in particular to a charging cabinet and a control method thereof.

Background

In occasions such as factory workshop, assembly line, warehouse, all can use portable power source. A code scanning gun, such as a cart for a Computer Numerical Control (CNC) station, requires a mobile power supply to power it. Generally, staff independently charge the mobile power supply, and the charging of the mobile power supply in a large batch cannot be managed in a centralized manner, so that potential safety hazards in production exist.

Disclosure of Invention

The embodiment of the application provides a charging cabinet and a control method thereof, which can realize centralized charging management of a mobile power supply, avoid charging the mobile power supply by a user independently using a charging device, and reduce potential safety hazards in production.

In a first aspect, an embodiment of the present application provides a charging control method for a charging cabinet, where the charging cabinet includes at least one charging grid, the charging grid includes a charging voltage output device, and the method includes: acquiring integrated circuit card information and verifying the integrated circuit card information; when the verification is successful, displaying a charging interface, wherein the charging interface comprises an input control for inputting a target charging grid; responding to a first operation acted on the input control, and acquiring the target charging grid; opening a cabinet door of the target charging grid; supplying power to the charging voltage output device of the target charging grid so that the charging voltage output device charges the mobile power supply in the target charging grid.

In other embodiments, the charging cabinet further comprises a charging management system, wherein the charging management system is used for recording a first moment of starting charging and a second moment of full charging; the method further comprises the following steps: acquiring the first time and the second time; determining the charging time of the mobile power supply according to the first time and the second time; and determining the charging condition according to the charging time and the standard time.

In other embodiments, the determining the charging condition according to the charging duration and a standard charging duration includes: when the difference value between the charging time length and the standard time length is within a first preset range, determining that the charging condition of the mobile power supply is normal; when the charging time length is smaller than the standard time length and the difference value between the charging time length and the standard time length is larger than a first threshold value, determining that the mobile power supply is abnormal, and outputting a prompt; and when the charging time length is greater than the standard time length and the difference value between the charging time length and the standard time length is greater than a second threshold value, determining that the charging management system is abnormal, and outputting a prompt.

In other embodiments, the method further comprises: recording a third moment of opening the cabinet door; detecting that the mobile power supply is not charged within a preset time period, and outputting alarm information; and recording the third moment and the information of the integrated circuit card.

In other embodiments, the method further comprises: when the mobile power supply is detected to be fully charged, stopping supplying power to the charging voltage output device; and detecting that the mobile power supply is taken away, and releasing the association between the target charging grid and the integrated circuit card information.

In other embodiments, after the detecting that the mobile power source is removed and the association between the target charging grid and the ic card information is released, the method further comprises: when the mobile power supply is detected to exist in the target charging grid, judging whether the information of the integrated circuit card is acquired again; if not, prompting card swiping; and if so, supplying power to the charging voltage output device of the target charging grid.

In a second aspect, an embodiment of the present application provides a charging cabinet, where the charging cabinet includes at least one charging grid including a card swiping module, a touch module, a control module, a charging power supply, a charging voltage output device, and a door lock control module; the card swiping module is used for acquiring the information of the integrated circuit card and transmitting the information of the integrated circuit card to the control module; the control module is used for verifying the information of the integrated circuit card, and when the verification is successful, the control module controls the touch module to display a charging interface, wherein the charging interface comprises an input control for inputting a target charging grid; the touch control module is used for acquiring a first operation acting on the input control and transmitting the first operation to the control module; the control module is further used for responding to the first operation, determining the target charging grid and controlling the door lock control module to open a cabinet door of the target charging grid; the control module is also used for controlling the charging power supply to supply power to a charging voltage output device of the target charging grid; the charging voltage device is used for charging the mobile power supply in the target charging grid.

In other embodiments, the charging cabinet further comprises a charging management system; the charging management system is used for recording a first moment of starting charging and a second moment of full charging; the control module is further configured to obtain the first time and the second time, determine a charging duration of the mobile power supply according to the first time and the second time, and determine a charging condition according to the charging duration and a standard charging duration.

In other embodiments, the charging cabinet further comprises: a smoke detector, a first switch and a smoke alarm; the smoke detector is used for detecting the smoke concentration of the surrounding environment; the first switch is electrically connected between the smoke detector and the charging power supply, and when the first switch receives a signal of the smoke detector, the first switch disconnects the charging power supply; the smoke alarm is electrically connected with the smoke detector, and alarms when receiving the signal of the smoke detector.

In other embodiments, an emergency door opener is also included; the emergency door opening device comprises a control rod, a steering engine and a shifting sheet; the plectrum is positioned at the electronic lock of the charging grid; one end of the control rod is connected with the steering engine, and the other end of the control rod is connected with the shifting piece; the steering engine is electrically connected with the control module and used for receiving a control instruction output by the control module, pushing the control rod according to the control instruction, and the control rod drives the shifting piece to open the electronic lock, wherein the touch control module receives an emergency door opening instruction, and the control module responds to the emergency door opening instruction to output the control instruction.

In the embodiment of the application, the integrated circuit card information is acquired and verified, so that the centralized charging management of the mobile power supply is realized, the situation that a user independently uses a charging device to charge the mobile power supply is avoided, and the potential safety hazard of production is reduced.

Drawings

Fig. 1 is a schematic structural diagram of a charging cabinet according to an embodiment of the present application.

Fig. 2 is a schematic block diagram of a charging cabinet according to an embodiment of the present application.

Fig. 3 is a schematic flowchart of a charging control method of a charging cabinet according to an embodiment of the present application.

Fig. 4 is a schematic view of a charging interface according to an embodiment of the present disclosure.

Fig. 5 is a schematic view of another charging interface provided in the embodiment of the present application.

Fig. 6 is a schematic flowchart of another charging control method for a charging cabinet according to an embodiment of the present disclosure.

Fig. 7 is a schematic flowchart of another charging control method for a charging cabinet according to an embodiment of the present disclosure.

Fig. 8 is a schematic flowchart of another charging control method for a charging cabinet according to an embodiment of the present disclosure.

Description of the main elements

Charging cabinet	100
		Charging grid	10
Touch area	20
		Card swiping area	30
Smoke detector	40
		Alarm lamp	50
Control module	21
		Card swiping module	22
Touch control module	23
		Charging power supply	24
Charging voltage output device	25
		Door lock control module	26
Charging management system	27
		Emergency door opener	28
Charging interface	41
		Input control	42

The following detailed description will explain the present application in further detail in conjunction with the above-described figures.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application.

In occasions such as factory workshop, assembly line, warehouse, often need use large batch portable power source, if use battery charging outfit alone by the user to charge portable power source, can't carry out centralized management to the charging of large batch portable power source, also can't manage and control the user's power consumption, may have production potential safety hazard.

In view of this, the embodiment of the application provides a charging cabinet and a charging control method thereof, in which the charging cabinet charges a mobile power supply in a centralized manner, so that centralized charging management of the mobile power supply is realized, a user is prevented from independently using a charging device to charge the mobile power supply, and potential safety hazards in production are reduced.

For example, please refer to fig. 1, in which fig. 1 is a schematic structural diagram of a charging cabinet 100 according to an embodiment of the present disclosure. In the embodiment of the present application, the charging cabinet 100 includes at least one charging grid 10. The charging cabinet 100 further includes a touch area 20, a card swiping area 30, a smoke detector 40 and an alarm lamp 50.

Illustratively, the charging cabinet 100 in fig. 1 includes 6 × 6 charging cells 10. Each charging grid 10 has a certain accommodating cavity for accommodating a mobile power supply to be charged. Among them, the portable power source is also called as a "mobile power source" or a "charger", which is a portable charger that can be carried about and can store electric energy. In situations where there is no external power supply, the portable power source may charge the electronic device (e.g., wireless phone, laptop, yard scanner, cart).

In the embodiment of the present application, the touch area 20 is used to display a corresponding interface (e.g., the charging interface 41, the prompt interface, etc. of fig. 4), and a user can perform an operation (e.g., click or input, etc.) on the touch area 20.

In the embodiment of the present application, the card swiping area 30 is used for a user to swipe an integrated circuit card (IC). The ic card is also called a smart card. It will be appreciated that the integrated circuit card has the capability to write data and store data, and that the determination of the data stored on the integrated circuit card can be made.

In the present embodiment, the smoke detector 40 is also called a "smoke detector" or "smoke detector". The smoke detector 40 may monitor the concentration of smoke and output a signal when a certain concentration of smoke is detected. Wherein the smoke detector 40 may be disposed on the top of the charging cabinet 100, the number of the smoke detectors 40 may include a plurality. The smoke detector 40 outputs a signal when it detects a certain concentration of smoke around the charging cabinet 100.

In the embodiment of the present application, the warning lamp 50 is used to warn when a signal is received. For example, the smoke detector 40 outputs a signal to the warning lamp 50, and the warning lamp 50 gives an alarm. For another example, when the portable power source is abnormal, the control module 21 in fig. 2 controls the alarm lamp 50 to alarm.

In some embodiments, the charging cabinet 100 includes two smoke detectors 40, wherein one smoke detector 40 is connected to a fire-fighting host, and the fire-fighting host alarms when smoke is detected, so that the fire department can know the fire and take measures at the first time. The other smoke detector 40 outputs a signal to a first switch (not shown), which may be a relay. The first switch is electrically connected between the smoke detector 40 and the charging power supply 24 (as shown in fig. 2), and when the first switch receives the signal output by the smoke detector 40, the first switch disconnects the charging power supply 24, that is, when it is detected that smoke reaches a certain concentration, the charging power supply 24 of the charging cabinet 100 is disconnected, and the mobile power supply is stopped being charged. In some embodiments, the warning light 50 is electrically connected to the smoke detector 40 and alerts when the warning light 50 receives a signal from the smoke detector 40. In some embodiments, the smoke detector 40 controls the relay to operate, and after the relay operates, the alarm lamp 50 operates and turns off the air switch of the charging power supply 24, so that safety is guaranteed.

It is to be understood that the illustrated structure of the embodiment of the present application does not constitute a specific limitation to the charging cabinet 100. The number of charging cabinets 100, the positions of the charging cabinets 100, the touch area 20, the card swiping area 30, the smoke detector 40, and the alarm lamp 50 are not particularly limited. In other embodiments of the present application, the charging cabinet 100 may include more or fewer components than shown, or combine certain components, or split certain components, or a different arrangement of components. The illustrated components may be implemented in hardware, software, or a combination of software and hardware.

Referring to fig. 2, the charging cabinet 100 includes a control module 21, a card swiping module 22 electrically connected to the control module 21, a touch module 23, a charging power supply 24, a charging voltage output device 25, a door lock control module 26, a charging management system 27, and an emergency door opening device 28.

In the embodiment of the present application, the card swiping module 22 may be configured to acquire the ic card information and transmit the acquired ic card information to the control module 21. The swipe module 22 may include a reader. For example, a reader/writer is provided in the card reading area 30, and the communication method between the reader/writer and the integrated circuit card may be contact type or non-contact type.

In some embodiments, the integrated circuit card is a card with an electronic tag (RFID), and the reader/writer is a reader. The swipe area 30 is provided with a reader. When a user swipes a card with an electronic tag in the card swiping area 30, the electronic tag receives a radio frequency signal sent by the reader after entering the reader, and sends out information (a passive tag or a passive tag) stored in the card by virtue of energy obtained by induced current, or the electronic tag actively sends a signal with a certain frequency (an active tag or an active tag), and the reader reads the information and decodes the information. The reader transmits the decoded information to the control module 21 for data processing.

In the embodiment of the present application, the touch module 23 may be configured to display an interface, acquire an operation (e.g., a first operation) applied to the interface by a user, and transmit the operation to the control module 21. The touch module 23 may include a touch screen, such as a touch screen disposed on a touch area.

In the present embodiment, the charging power supply 24 is used to supply the charging voltage output device 25. The charging power supply 24 may comprise a 220V ac power supply (e.g., mains) or a dc power supply. In some embodiments, the charging power supply 24 further includes a corresponding switch, such as an air switch, and the control module 21 controls the air switch to control the power supply of the charging power supply 24.

In the embodiment of the present application, the charging voltage output device 25 is used for charging the mobile power supply in the charging grid 10. The charging voltage output device 25 is provided in the charging grid 10. Each charging cell 10 includes a corresponding charging voltage output device 25, the mobile power source to be charged is placed in the charging cell 10, and the mobile power source is charged by the charging voltage output device 25 corresponding to the charging cell 10.

In some embodiments, the charging voltage output device 25 includes a Switch Mode Power Supply (SMPS) that converts a voltage of one level into a voltage or a current required by the mobile power supply through various types of architectures. The switch mode power supply provides an input from a charging power supply 24, i.e., an ac power supply (e.g., mains) or a dc power supply, and then outputs a voltage or current to the mobile power supply.

In some embodiments, the charging cabinet 100 may include 8 12V, 150W switch mode power supplies, each of which charges up to 6 mobile power supplies simultaneously, and the maximum charging power of each mobile power supply is 35W on average under full load, which may effectively shorten the charging time.

In the embodiment of the present application, the door lock control module 26 is used to control the opening or closing of the electronic lock of the door on the charging grid 10, so as to open or close the door of the charging grid 10.

In the embodiment of the present application, the charging management system 27 automatically selects a charging and discharging strategy to perform accurate charging according to the charging characteristic curve of the mobile power supply by using an intelligent detection and digital control technology, so as to ensure the charging saturation of the mobile power supply. The charging management system 27 can also automatically perform compensatory pre-charging and activation training on the mobile power supply which is over-discharged (or left idle for a long time), so as to prolong the service life of the mobile power supply. The charging management system 27 records a charging history and realizes history management of the portable power source.

In this embodiment, the charging management system 27 may be further configured to record a first time when the mobile power source is charged and a second time when the mobile power source is fully charged. The charging management system 27 may transmit the first time and the second time of the mobile power supply in each charging grid 10 to the control module 21.

In some embodiments, when the charging management system 27 detects that the mobile power supply in the charging grid 10 is fully charged, it may output a signal to the control module 21, so that the control module 21 disconnects the power supply from the charging power supply 24 to the charging voltage output device 25, and further disconnects the charging from the charging voltage output device 25 to the mobile power supply. Alternatively, the charging management system 27 directly outputs a signal to a relay provided between the portable power source and the charging voltage output device 25 to cut off the power supply from the charging voltage output device 25 to the portable power source when detecting that the portable power source is fully charged in the charging grid 10.

In the embodiment of the present application, the charging management system 27 may detect a current value of the charging voltage output device 25 for charging the mobile power supply, and determine the charging state of the mobile power supply according to the current value. It is understood that the structural modules of the charging management system 27 are conventional in the art and will not be described in detail herein.

In the embodiment of the present application, the emergency door opener 28 is configured to receive a control command output by the control module 21, and open the doors of all the charging compartments 10 in the charging cabinet 100 according to the control command. The emergency door opener 28 comprises a control rod (not shown), a steering engine (not shown) and a shifting piece (not shown); the paddle is located at an electronic lock (not shown) of the charging grid 10. One end of the control rod is connected with the steering engine, and the other end of the control rod is connected with the shifting piece. The steering engine is electrically connected with the control module 21 and used for receiving the control instruction output by the control module 21, pushing the control rod according to the control instruction, and driving the shifting piece to open the electronic lock by the control rod.

Specifically, the administrator can input the authority in the touch area 20, after the authority passes through the authentication of the control module 21, the administrator can input an emergency door opening instruction through the touch module 23, the touch module 23 receives the emergency door opening instruction and transmits the emergency door opening instruction to the control module 21, and the control module 21 outputs a control instruction to the steering engine in response to the emergency door opening instruction so as to open the cabinet doors of all the charging grids 10.

In the embodiment of the present application, the control module 21 is configured to control the charging cabinet 100 to charge the mobile power source, and centrally manage the charging of the mobile power sources in a large batch. Specifically, after receiving the ic card information sent by the card swiping module 22, the control module 21 verifies the ic card information, and when the verification is successful, controls the touch module 23 to display the charging interface 41, where the charging interface 41 includes an input control 42 for inputting the target charging grid. When the control module 21 receives the first operation, which is obtained by the touch module 23 and acts on the input control 42, in response to the first operation, the target charging grid is determined, the lock control module 21 is controlled to open the cabinet door of the target charging grid, and the charging power supply 24 is controlled to supply power to the charging voltage output device 25 of the target charging grid.

In some embodiments, control module 21 may include a processor and peripheral related circuitry. In some embodiments, the processor may be an embedded single chip microcomputer, and the specific product may be STM32F0, STM32F1, and STM32F 3. It will be appreciated that the structural modules of the control module 21 are of conventional design and will not be described in detail herein.

The charging control method of the charging cabinet 100 according to the embodiment of the present application is specifically described below.

Referring to fig. 3, a charging control method of the charging cabinet 100 according to the embodiment of the present disclosure is provided. The method may be applied to the charging cabinet 100 shown in fig. 1 and 2, and the method may be executed by the control module 21. The method comprises the following steps:

step S31: and acquiring the information of the integrated circuit card and verifying the information of the integrated circuit card.

In the embodiment of the present application, a user may swipe an integrated circuit card (for example, an employee card of a factory, a warehouse, or a workshop) through the card swiping area 30, and a reader/writer provided in the card swiping area 30 acquires user information (integrated circuit card information) stored in advance on the integrated circuit card, where the user information may be a personal identification code. The control module 21 obtains the personal identification code, and verifies the validity of the user according to the personal identification code, so as to determine whether the user has the right to use the charging cabinet 100. For example, it is determined whether the personal identification code matches a personal identification code registered in advance.

It is understood that verifying the ic card information to confirm the user's authority is prior art and will not be described herein.

Step S32: and when the verification is successful, displaying a charging interface, wherein the charging interface comprises an input control for inputting the target charging grid.

In the embodiment of the present application, when the verification is successful, it is determined that the user has the right to use the charging cabinet 100, the control module 21 controls the touch module 23 to display the charging interface 41, and the control module 21 can record the information of the ic card.

In the embodiment of the present application, each charging bay 10 may be provided with a corresponding reference numeral in advance. The control module 21 may pre-store each charging grid 10 and its corresponding label, and the control module 21 may be positioned to the corresponding charging grid 10 according to the label.

Referring to fig. 4, the charging interface 41 includes an input control 42 for inputting the target charging grid, and the input control 42 may be an input box. And inputting the label of the corresponding charging grid 10 on the input box, wherein the charging grid 10 with the label is the target charging grid. In other embodiments, the input control 42 may be a selection item, and the charging interface 41 includes a label of the charging grid 10 to which the charging cabinet 100 is currently chargeable, and the user clicks the corresponding label, that is, selects the charging grid 10 corresponding to the label as the target charging grid.

In other embodiments, the charging grid 10 corresponding to the label may be configured for the ic card in advance, and when the ic card information is successfully verified, the charging grid 10 configured for the ic card in advance is provided for the user to select. For example, the charging cabinet 100 has charging compartments 10 numbered 1 to 10, and the charging compartments 10 numbered 1 to 5 are allocated to the integrated circuit card a and the integrated circuit card B. If the information of the ic card a or B is acquired and the verification is successful, the control module 21 provides the currently chargeable charging grid 10 of the charging grids 10 numbered 1 to 5 to the user holding the ic card a or B for selection.

In the embodiment of the present application, if the control module 21 does not acquire the ic card information or the ic card information is not successfully verified, even if the touch module 23 receives the operation of the user, the control module 21 does not output an instruction to the control module 21, and the control module 21 does not display the charging interface 41, so as to ensure that the charging is provided for the user after the user authority verification is successful, and prevent the user from using the charging cabinet 100 to charge the mobile power supply at will.

Step S33: in response to a first operation on the input control, a target charging grid is obtained.

In the embodiment of the present application, the user may input the number of the charging grid 10 he wants on the charging interface 41 after the card swiping is successful. For example, referring to fig. 5, the user enters the number 9 in the input box. The touch module 23 obtains the label 9 input by the user and transmits the label 9 to the control module 21. The control module 21 responds to a first operation of the user on the input control 42, namely the control module 21 responds to the label 9 input by the user, determines the charging grid 10 of the label 9 as the target charging grid, and obtains the target charging grid which the user wants to use.

In the embodiment of the present application, after the user successfully swipes the card, the control module 21 stores the information of the integrated circuit card, associates the information of the integrated circuit card with the target charging grid, and records that the user currently using the target charging grid is the user corresponding to the integrated circuit card.

Step S34: and opening the cabinet door of the target charging grid.

In the embodiment of the present application, after the control module 21 obtains the target charging grid, the door lock control module 26 is controlled to open the door of the target charging grid. Wherein, door lock control module 26 also can correspond to the check 10 that charges according to the label of the check 10 that charges to this can open the cabinet door according to the target check that charges's that control module 21 output label control target check that charges.

Step S35: and supplying power to the charging voltage output device of the target charging grid, so that the charging voltage output device charges the mobile power supply in the target charging grid.

In the embodiment of the present application, each charging cell 10 has a charging voltage output device 25, and the control module 21 controls the charging power supply 24 to supply power to the charging voltage output device 25 of the target charging cell only when the ic card information is successfully verified. That is, the charging voltage output device 25 charges the portable power source in the target charging cell when the verification of the ic card information is successful.

In other embodiments, referring to fig. 6, a flow of a charging control method of the charging cabinet 100 according to another embodiment of the present disclosure is provided.

Step S61: displaying a charging interface, wherein the charging interface comprises an input control for inputting a target charging grid.

Step S62: in response to a first operation on the input control, a target charging grid is obtained.

In some embodiments, the door on the charging bay 10 includes a transparent area through which a user can see if a mobile power source is present within the charging bay 10. The user finds his or her desired target charging grid from the charging grid 10 of the charging cabinet 100 and inputs the reference number of the target charging grid at the charging interface 4.

Step S63: acquiring integrated circuit card information and verifying the integrated circuit card information;

step S64: and when the verification is successful, opening the cabinet door of the target charging grid.

Step S65: and supplying power to the charging voltage output device of the target charging grid, so that the charging voltage output device charges the mobile power supply in the target charging grid.

In this embodiment of the application, the user may pre-charge the target charging grid in the touch area 20, and then swipe the card, and when the card swiping verification is successful, the mobile power source may be placed in the target charging grid for charging.

Both fig. 6 and 4 require the user to swipe the integrated circuit card and allow the user to enter the target charging grid through the charging interface 41. The control module 21 needs to acquire the ic card information and authenticate the ic card. After the information of the integrated circuit card is successfully obtained, the information of the integrated circuit card is associated with the target charging grid, and after the information of the target charging grid is associated with the information of the integrated circuit card, the charging power supply 24 is controlled to supply power to the charging voltage output device 25 corresponding to the target charging grid, so that the charging voltage output device 25 corresponding to the target charging grid can charge the mobile power supply in the target charging grid.

Fig. 6 differs from fig. 4 in that fig. 6 may first display the charging interface 41, and the target charging grid is obtained through the charging interface 41. And after the control module 21 verifies the successful integrated circuit card information, the cabinet door of the target charging grid is opened, and the charging voltage output device 25 of the target charging grid is powered.

In other embodiments, referring to fig. 7, a flow of a charging control method of the charging cabinet 100 according to another embodiment of the present disclosure is provided.

Step S71: the first time and the second time are obtained.

Step S72: and determining the charging time of the mobile power supply according to the first time and the second time.

Step S73: and determining the charging condition according to the charging time length and the standard time length.

In the embodiment of the present application, determining the charging condition according to the charging duration and the standard charging duration includes: when the difference value between the charging time length and the standard time length is within a first preset range, determining that the charging condition of the mobile power supply is normal; and when the charging time is shorter than the standard time and the difference value between the charging time and the standard time is larger than a first threshold value, determining that the mobile power supply is abnormal, and outputting a prompt. When the charging time period is longer than the standard time period and the difference between the charging time period and the standard time period is larger than the second threshold, it is determined that the charging management system 27 is abnormal, and a prompt is output.

In the embodiment of the present application, the control module 21 may control the touch module 23 to output a prompt, or control the alarm lamp 50 to output a prompt. For example, when it is determined that the mobile power supply is abnormal, the control module 21 controls the touch module 23 to output a mobile power supply abnormality prompt. When determining that the charging management system 27 is abnormal, the control module 21 controls the touch module 23 to output an indication that the charging management system 27 is abnormal.

In this application embodiment, control module 21 can also record the third moment of opening the cabinet door, detects not charging portable power source in the predetermined time quantum, output alarm information. And recording the information of the third moment and the integrated circuit card, and uploading the information to the server.

In the embodiment of the present application, in order to avoid that the user forgets to put the portable power source into the charging grid 10 after opening the charging grid, or the portable power source cannot be electrically connected to the charging voltage output device 25 well. For this purpose, the charging management system 27 monitors whether the charging voltage output device 25 normally supplies power to the mobile power source, and when the charging voltage output device 25 normally supplies power to the mobile power source, the charging management system 27 may output a charging signal to the control module 21 to inform the control module 21 that the mobile power source is charging. If the control module 21 does not receive the charging signal output by the charging management system 27 from the third moment of opening the door to the preset time period, alarm information is output to prompt the user.

In some embodiments, the control module 21 may further record a third time when the cabinet door is opened and corresponding ic card information, and upload the third time, the ic card information, charging condition information, and the like to the server. In some embodiments, if the network is disconnected and the control module 21 cannot upload the information of the third time and, the information of the ic card, the information of the charging condition, etc. to the server, the information may be saved locally until the server can communicate with the server.

In another embodiment, referring to fig. 8, a flow of a charging control method of the charging cabinet 100 according to another embodiment of the present disclosure is provided. The method further comprises the following steps:

step S81: and stopping supplying power to the charging voltage output device when the mobile power supply is detected to be fully charged.

In the embodiment of the present application, the charging management system 27 may monitor the charging of the mobile power source by the charging voltage output device 25, and output a full-charge signal to the control module 21 when detecting that the mobile power source is fully charged. The control module 21 stops the charging of the mobile power supply by the charging voltage output device 25 in response to the full signal, for example, the control module 21 controls the charging power supply 24 to stop supplying power to the charging voltage output device 25.

Step S82: and detecting that the mobile power supply is taken away, and disassociating the target charging grid from the information of the integrated circuit card.

In the embodiment of the present application, the charging management system 27 may monitor whether the charging voltage output device 25 is connected to the mobile power source, and if it is monitored that the charging voltage output device 25 is not connected to the mobile power source, it is determined that the mobile power source is removed. In other embodiments, the charging cabinet 100 further includes an infrared sensor disposed in the charging compartment 10. Whether the mobile power supply exists in the charging grid 10 is detected through the infrared sensor, and whether the power supply is taken away is judged. When the mobile power supply is detected to be taken away, the control module 21 releases the association between the target charging grid and the information of the integrated circuit card, and the target charging grid cannot charge the mobile power supply until the target charging grid is bound and associated with the information of the integrated circuit card. The association between the target charging grid and the ic card information is released, i.e., the target charging grid is the chargeable charging grid 10, which may be associated with the same ic card information or a different ic card information binding.

Step S83: and when the mobile power supply is detected to exist in the target charging grid, judging whether the integrated circuit card information is acquired again.

In this embodiment of the application, after detecting that the mobile power supply is removed, and detecting that the mobile power supply exists in the target charging grid, the control module 21 determines whether to acquire the information of the integrated circuit card again, so as to determine whether the user has to swipe the card.

If not, step S84: and prompting card swiping.

If yes, step S85: and supplying power to the charging voltage output device of the target charging grid.

In the embodiment of the application, the target charging grid is associated with the integrated circuit card information, and the mobile power supply can be charged by the associated target charging grid. The disassociated target charging grid cannot charge the mobile power supply, the situation that the mobile power supply is fully charged, the fully charged mobile power supply is taken out, another mobile power supply is forgotten to be swiped again and put into the target charging grid for charging, charging information of the other mobile power supply is omitted and recorded is avoided, and therefore management of large-batch mobile power supply charging is achieved.

It should be understood by those skilled in the art that the above embodiments are only for illustrating the present application and are not used as limitations of the present application, and that suitable changes and modifications of the above embodiments are within the scope of the present application as claimed.

Claims (10)

1. A method of controlling charging of a charging cabinet, the charging cabinet including at least one charging grid, the charging grid including a charging voltage output device, the method comprising:

acquiring integrated circuit card information and verifying the integrated circuit card information;

when the verification is successful, displaying a charging interface, wherein the charging interface comprises an input control for inputting a target charging grid;

responding to a first operation acted on the input control, and acquiring the target charging grid;

opening a cabinet door of the target charging grid;

supplying power to the charging voltage output device of the target charging grid so that the charging voltage output device charges the mobile power supply in the target charging grid.

2. The charging control method of the charging cabinet according to claim 1, wherein the charging cabinet further comprises a charging management system for recording a first time point at which charging is started and a second time point at which charging is fully performed; the method further comprises the following steps:

acquiring the first time and the second time;

determining the charging time of the mobile power supply according to the first time and the second time;

and determining the charging condition according to the charging time and the standard time.

3. The charging control method of the charging cabinet according to claim 2, wherein the determining the charging condition according to the charging duration and a standard charging duration comprises:

when the difference value between the charging time length and the standard time length is within a first preset range, determining that the charging condition of the mobile power supply is normal;

when the charging time length is smaller than the standard time length and the difference value between the charging time length and the standard time length is larger than a first threshold value, determining that the mobile power supply is abnormal, and outputting a prompt;

and when the charging time length is greater than the standard time length and the difference value between the charging time length and the standard time length is greater than a second threshold value, determining that the charging management system is abnormal, and outputting a prompt.

4. The charging control method of the charging cabinet according to claim 2, wherein the method further comprises:

recording a third moment of opening the cabinet door;

detecting that the mobile power supply is not charged within a preset time period, and outputting alarm information;

and recording the third moment and the information of the integrated circuit card.

5. The charging control method of the charging cabinet according to claim 1, wherein the method further comprises:

when the mobile power supply is detected to be fully charged, stopping supplying power to the charging voltage output device;

and detecting that the mobile power supply is taken away, and releasing the association between the target charging grid and the integrated circuit card information.

6. The charging control method of the charging cabinet according to claim 5, further comprising, after the detecting that the mobile power source is removed and the association between the target charging grid and the ic card information is released, the step of:

when the mobile power supply is detected to exist in the target charging grid, judging whether the information of the integrated circuit card is acquired again;

if not, prompting card swiping;

and if so, supplying power to the charging voltage output device of the target charging grid.

7. A charging cabinet is characterized by comprising a card swiping module, a touch module, a control module, a charging power supply, a charging voltage output device and at least one charging grid of a door lock control module;

the card swiping module is used for acquiring the information of the integrated circuit card and transmitting the information of the integrated circuit card to the control module;

the control module is used for verifying the information of the integrated circuit card, and when the verification is successful, the control module controls the touch module to display a charging interface, wherein the charging interface comprises an input control for inputting a target charging grid;

the touch control module is used for acquiring a first operation acting on the input control and transmitting the first operation to the control module;

the control module is further used for responding to the first operation, determining the target charging grid and controlling the door lock control module to open a cabinet door of the target charging grid;

the control module is also used for controlling the charging power supply to supply power to the charging voltage output device of the target charging grid;

the charging voltage device is used for charging the mobile power supply in the target charging grid.

8. The charging cabinet of claim 7, further comprising a charging management system;

the charging management system is used for recording a first moment of starting charging and a second moment of full charging;

the control module is further configured to obtain the first time and the second time, determine a charging duration of the mobile power supply according to the first time and the second time, and determine a charging condition according to the charging duration and a standard charging duration.

9. The charging cabinet of claim 7, further comprising: a smoke detector, a first switch and a smoke alarm;

the smoke detector is used for detecting the smoke concentration of the surrounding environment;

the first switch is electrically connected between the smoke detector and the charging power supply, and when the first switch receives a signal of the smoke detector, the first switch disconnects the charging power supply;

the smoke alarm is electrically connected with the smoke detector, and alarms when receiving the signal of the smoke detector.

10. The charging cabinet of claim 7, further comprising an emergency door opener;

the emergency door opening device comprises a control rod, a steering engine and a shifting sheet;

the plectrum is positioned at the electronic lock of the charging grid;

one end of the control rod is connected with the steering engine, and the other end of the control rod is connected with the shifting piece;

the steering engine is electrically connected with the control module and used for receiving a control instruction output by the control module, the control rod is pushed according to the control instruction and drives the shifting piece to open the electronic lock, the touch control module receives an emergency door opening instruction, and the control module responds to the emergency door opening instruction and outputs the control instruction.

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