CN220041170U - Portable power source charging module, portable power source leasing equipment and system - Google Patents

Abstract

The utility model is suitable for the field of charging equipment, and provides a mobile power supply charging module, mobile power supply leasing equipment and a system. The mobile power supply charging module comprises a shell, a bin channel for accommodating the mobile power supply and charging the mobile power supply is arranged on the shell, the mobile power supply charging module further comprises an RFID antenna, a control module, a power module and an RFID reader, the power module and the RFID reader are respectively electrically connected with the control module, and the control module is used for controlling the RFID reader to read an SN code of the mobile power supply stored in an RFID passive tag arranged on the mobile power supply through the RFID antenna. Even if the mobile power supply is over-discharged, dead-powered, extremely low in residual electric quantity or damaged, the mobile power supply can still be returned successfully, the customer complaint problem that the user still deducts fees after returning the charge bank is thoroughly eradicated, and the application of the function in the mobile power supply leasing equipment is also beneficial to daily management and asset inventory of the mobile power supply leasing equipment.

Description

Portable power source charging module, portable power source leasing equipment and system

Technical Field

The utility model belongs to the field of charging equipment, and particularly relates to a mobile power supply charging module, mobile power supply leasing equipment and a system.

Background

In the prior art, the mobile power rental equipment realizes information reading and charging by contacting the thimble of the mobile power charging module with the metal contact on the mobile power. However, the thimble and the metal contact are aged for a long time, and the metal contact on the mobile power supply is easy to oxidize, be stained with dust or dirt and the like along with the long time, so that poor contact is caused, and the problems of failure in information reading of the leasing equipment of the mobile power supply, increased customer complaints, increased operation cost and the like occur; over time, the problem that the thimble is aged, oxidized and the metal contact is dirty and clean in place, and the unsuccessful information caused by poor contact can bring huge trouble to the operation of the portable power source leasing equipment, and as the portable power source leasing equipment put in operation increases, the portable power source leasing equipment can not be identified when a user returns to the portable power source due to equipment aging or poor contact of the metal contact, so that an order can not be ended, fee deduction is continuously carried out, and the problems of complaints of the user and the like can be caused.

In addition, in the portable power source leasing equipment in the prior art, standby infrared or active RFID is arranged on the leased portable power source to solve the problem that the information cannot be read due to the failure of the thimble; however, the wireless communication mode has high power consumption and high cost, reduces the effective energy of the leased mobile power supply, and the mobile power supply must reserve enough residual electric quantity to return successfully.

Disclosure of Invention

The utility model aims to provide a mobile power supply charging module, mobile power supply leasing equipment and a system, and aims to solve the problem that when a mobile power supply is over-discharged, dead, extremely low in residual electric quantity or damaged, the mobile power supply leasing equipment fails to read information, so that the mobile power supply leasing equipment is unsuccessful to return.

In a first aspect, the utility model provides a mobile power supply charging module, which comprises a shell, wherein a bin channel for accommodating a mobile power supply and charging the mobile power supply is arranged on the shell, the mobile power supply charging module further comprises an RFID antenna, a control module, a power supply module and an RFID reader, wherein the power supply module and the RFID reader are respectively electrically connected with the control module, and the power supply module and the RFID antenna are respectively electrically connected with the RFID reader; the RFID antenna is arranged in the bin channel or at the outer side of the bin channel, and the control module is used for controlling the RFID reader to read the SN code of the mobile power supply stored in the RFID passive tag arranged on the mobile power supply through the RFID antenna.

Further, the control module is further used for controlling the RFID reader to read a unique UID code carried by the RFID passive tag through the RFID antenna, the UID code of the RFID passive tag and the SN code of the mobile power supply establish a binding relationship in the server, and the UID code of the RFID passive tag and the SN code of the mobile power supply are combined to be used as the identity identification code of each mobile power supply.

Further, the mobile power supply charging module comprises a plurality of RFID antennas, a multi-path selection switch is further connected between each RFID antenna and the RFID reader, the multi-path selection switch is further electrically connected with the control module and the power supply module, and each RFID antenna is respectively arranged between two adjacent bin channels up and down or between two bin channels adjacent left and right.

In a second aspect, the present utility model provides a portable power source rental device, including the portable power source charging module.

In a third aspect, the utility model provides a portable power source leasing system, which comprises the portable power source leasing equipment and a portable power source accommodated in a bin of a portable power source charging module.

In the utility model, the mobile power supply charging module comprises an RFID reader for reading the SN code of the mobile power supply stored in the RFID passive tag arranged on the mobile power supply and the unique UID code carried by the RFID passive tag through the RFID antenna. Because the passive characteristic of the RFID passive tag arranged on the mobile power supply does not need to supply power, the RFID reader capable of reading the RFID passive tag can still return successfully even if the mobile power supply is over-discharged, dead, extremely low in residual electric quantity or damaged, so that the customer complaint problem that the user still deducts fees after returning the mobile power supply is thoroughly eliminated, and the application of the function in the mobile power supply leasing equipment is also beneficial to daily management and asset inventory of the mobile power supply leasing equipment. The control module is also used for controlling the RFID reader to read the unique UID code carried by the RFID passive tag through the RFID antenna, the UID code of the RFID passive tag and the SN code of the mobile power supply establish a binding relationship in the server, and the UID code of the RFID passive tag and the SN code of the mobile power supply are combined to be used as the identity identification code of each mobile power supply. Therefore, the mobile power supply can be prevented from being stolen, and the fake mobile power supply can be prevented from being returned. And because the mobile power supply charging module comprises a plurality of RFID antennas, a multi-path selection switch is also connected between each RFID antenna and the RFID reader, and each RFID antenna is respectively arranged between two adjacent bin channels at the upper and lower sides or between two adjacent bin channels at the left and right sides. Therefore, the cost of the portable power source leasing equipment is effectively reduced.

Drawings

Fig. 1 is a functional block diagram of a mobile power charging module according to an embodiment of the utility model.

Fig. 2 is a functional block diagram of a mobile power charging module according to another embodiment of the present utility model.

Fig. 3 is a schematic diagram of a portable power source rental system according to an embodiment of the utility model.

Detailed Description

In order to make the objects, technical solutions and advantageous effects of the present utility model more apparent, the present utility model will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In order to illustrate the technical scheme of the utility model, the following description is made by specific examples.

Referring to fig. 1, a mobile power charging module provided by an embodiment of the present utility model includes a housing, a channel for accommodating a mobile power and charging the mobile power is provided on the housing, the mobile power charging module further includes an RFID antenna 11, a control module 12, and a power module 13 and an RFID reader 14 electrically connected to the control module 12, where the power module 13 and the RFID antenna 11 are electrically connected to the RFID reader 14; the RFID antenna 11 is disposed in the bin or outside the bin, and the control module 12 is configured to control the RFID reader 14 to read an SN (Serial Number) code of a mobile power source stored in an RFID passive tag disposed on the mobile power source through the RFID antenna 11.

In an embodiment of the present utility model, the control module 12 is further configured to control the RFID reader 14 to read a unique UID (User Identification ) code carried by an RFID passive tag through the RFID antenna 11, where the UID code of the RFID passive tag and the SN code of the mobile power supply establish a binding relationship in the server, and the UID code of the RFID passive tag and the SN code of the mobile power supply are combined to be used as an identification code of each mobile power supply. Therefore, the mobile power supply can be prevented from being stolen, and the fake mobile power supply can be prevented from being returned.

In an embodiment of the present utility model, the mobile power supply charging module may further include an anode charging thimble, a cathode charging thimble, a signal clock thimble and a signal data thimble that are electrically connected with the control module, respectively; the positive charging thimble and the negative charging thimble are respectively used for being in contact with a positive charging contact and a negative charging contact arranged on the mobile power supply so as to charge the mobile power supply; the signal data thimble is used for sending an instruction for reading the related data of the mobile power supply to the signal data contact arranged on the mobile power supply and receiving the related data of the mobile power supply sent by the signal data contact arranged on the mobile power supply; the signal clock thimble is used for contacting with a signal clock contact arranged on the mobile power supply and synchronizing with a clock of the mobile power supply charging module when the mobile power supply receives and transmits data.

Referring to fig. 2, in order to reduce the cost, compared with a mobile power charging module provided in an embodiment of the present utility model, the mobile power charging module provided in another embodiment of the present utility model includes a plurality of RFID antennas 21, a multiplexing switch 23 is further connected between each RFID antenna 21 and an RFID reader 22, the multiplexing switch 23 is further electrically connected with a control module 24 and a power module 25, each RFID antenna 21 is respectively disposed between two vertically adjacent lanes or between two horizontally adjacent lanes, and SN codes of mobile power passive tags stored on mobile power supplies in the vertically adjacent or horizontally adjacent lanes and unique UID codes carried by the RFID passive tags are read in a time-sharing manner. So that at least more than 4 lanes can be managed by one RFID reader.

The utility model also provides a portable power source leasing device, which comprises a plurality of portable power source charging modules provided by one embodiment or another embodiment of the utility model.

Referring to fig. 3, a portable power source rental system according to an embodiment of the present utility model includes a portable power source rental apparatus according to an embodiment of the present utility model and a portable power source 31 accommodated in a compartment of a portable power source charging module 32. In order to ensure that the RFID reader 321 of the mobile power charging module 32 can accurately read the identity identification code of the mobile power 31, the position of the RFID passive tag 311 arranged on the mobile power 31 needs to meet that the mobile power is inserted into a bin channel with any one of the front and back sides of the mobile power, and the RFID reader 321 of the mobile power charging module 32 can read the SN code of the mobile power stored in the RFID passive tag 311 on the mobile power and the unique UID code carried by the RFID passive tag through the RFID antenna 322. For example, if the RFID passive tag is disposed at the battery position of the mobile power supply, one RFID passive tag needs to be disposed on each of the front and back sides of the mobile power supply, and if the RFID passive tag is disposed at the control board position of the mobile power supply, the front and back insertion can be identified by placing one RFID passive tag.

The working principle of the portable power source leasing system provided by the embodiment of the utility model is as follows:

after the control module of the mobile power supply charging module detects that the mobile power supply is inserted into the bin, the control module preferentially controls the signal data thimble to read the identity information of the mobile power supply through the signal data contact of the mobile power supply, wherein the identity information comprises the information such as the SN code, the residual electric quantity and the health state of the mobile power supply, then the RFID reader of the mobile power supply charging module is controlled to start reading the SN code stored in the RFID passive tag on the mobile power supply and the unique UID code carried by the RFID passive tag, then whether the SN codes obtained in the two modes are consistent or not is judged, and if so, the return is confirmed to be successful; if the reading of the identity information of the mobile power supply through the signal data thimble fails, then the reading of the SN code stored in the RFID passive tag on the mobile power supply and the unique UID code carried by the RFID passive tag is started through the RFID reader, the unique UID code is sent to the server, the server judges whether the identity is legal or not according to the binding relation between the UID code of the RFID passive tag and the SN code of the mobile power supply, if the identity is legal or not, the returning is successful, the thimble contact problem of the mobile power supply is marked, and maintenance is needed. When one RFID reader is connected with a plurality of RFID antennas, the control module controls the multi-path selection switch to switch the positions of the RFID antennas so as to realize time-sharing reading of RFID passive tags on a plurality of mobile power supplies.

In the utility model, the mobile power supply charging module comprises an RFID reader for reading the SN code of the mobile power supply stored in the RFID passive tag arranged on the mobile power supply and the unique UID code carried by the RFID passive tag through the RFID antenna. Because the passive characteristic of the RFID passive tag arranged on the mobile power supply does not need to supply power, the RFID reader capable of reading the RFID passive tag is adopted, and the RFID passive tag carries a unique UID code, so that the mobile power supply can still return successfully even if the mobile power supply is overdischarged or the residual electric quantity is insufficient, and the management and checking of the leasing equipment of the mobile power supply are facilitated. And because the mobile power supply charging module comprises a plurality of RFID antennas, a multi-path selection switch is also connected between each RFID antenna and the RFID reader, and each RFID antenna is respectively arranged between two adjacent bin channels at the upper and lower sides or between two adjacent bin channels at the left and right sides. Therefore, the cost of the portable power source leasing equipment is effectively reduced.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (8)

1. The mobile power supply charging module is characterized by comprising a shell, wherein a bin for accommodating a mobile power supply and charging the mobile power supply is arranged on the shell, the mobile power supply charging module further comprises an RFID antenna, a control module, a power supply module and an RFID reader, wherein the power supply module and the RFID reader are respectively electrically connected with the control module, and the power supply module and the RFID antenna are respectively electrically connected with the RFID reader; the RFID antenna is arranged in the bin channel or at the outer side of the bin channel, and the control module is used for controlling the RFID reader to read the SN code of the mobile power supply stored in the RFID passive tag arranged on the mobile power supply through the RFID antenna.

2. The mobile power supply charging module of claim 1, wherein the control module is further configured to control the RFID reader to read a unique UID code carried by the RFID passive tag through the RFID antenna, the UID code of the RFID passive tag and the SN code of the mobile power supply establish a binding relationship in the server, and the UID code of the RFID passive tag and the SN code of the mobile power supply are combined to serve as an identity code of each mobile power supply.

3. The mobile power supply charging module of claim 1, further comprising a positive charging pin, a negative charging pin, a signal clock pin, and a signal data pin electrically connected to the control module, respectively; the positive charging thimble and the negative charging thimble are respectively used for being in contact with a positive charging contact and a negative charging contact arranged on the mobile power supply so as to charge the mobile power supply; the signal data thimble is used for sending an instruction for reading the related data of the mobile power supply to the signal data contact arranged on the mobile power supply and receiving the related data of the mobile power supply sent by the signal data contact arranged on the mobile power supply; the signal clock thimble is used for synchronizing clocks with signal clock contacts arranged on the mobile power supply.

4. A mobile power charging module according to any one of claims 1 to 3, wherein the mobile power charging module comprises a plurality of RFID antennas, a multiplexing switch is further connected between each RFID antenna and the RFID reader, the multiplexing switch is further electrically connected with the control module and the power module, and each RFID antenna is respectively disposed between two adjacent lanes up and down or between two lanes adjacent left and right.

5. A portable power source rental device comprising a plurality of portable power source charging modules as claimed in any one of claims 1 to 4.

6. A portable power source rental system comprising the portable power source rental device of claim 5 and a portable power source housed in a bay of the portable power source charging module.

7. The portable power source rental system of claim 6, wherein the position of the RFID passive tag on the portable power source is required to satisfy the requirement that the portable power source is inserted into the aisle with either of its front and back sides facing up, and the RFID reader of the portable power source charging module can read the SN code of the portable power source and the unique UID code carried by the RFID passive tag stored in the RFID passive tag on the portable power source through the RFID antenna.

8. The portable power rental system of claim 7, in which if the RFID passive tag is disposed at the battery location of the portable power source, one RFID passive tag is disposed on each of the front and back sides of the portable power source, and if the RFID passive tag is disposed at the control board location of the portable power source, one RFID passive tag is disposed.