CN111327626B

CN111327626B - Method and system for verifying and exchanging battery data

Info

Publication number: CN111327626B
Application number: CN202010138820.2A
Authority: CN
Inventors: 胡胜雄; 施雅茹; 林昱玮
Original assignee: Inventec Appliances Shanghai Corp; Inventec Appliances Pudong Corp; Inventec Appliances Corp
Current assignee: Inventec Appliances Shanghai Corp; Inventec Appliances Pudong Corp; Inventec Appliances Corp
Priority date: 2020-03-03
Filing date: 2020-03-03
Publication date: 2022-07-22
Anticipated expiration: 2040-03-03
Also published as: TW202134992A; TWI822995B; CN111327626A

Abstract

The invention provides a method for verifying and exchanging battery data, which comprises the following steps. When the first battery is close to the first communication device, a first communication module of the first battery receives a first verification code transmitted from the first communication device; judging whether the first verification code is correct or not through the first battery; when a second battery is close to a second communication device, a second communication module of the second battery receives a second verification code transmitted from the second communication device; judging whether the second verification code is correct or not through the second battery; when the first verification code is correct and the second verification code is correct, the first battery and the second battery allow data exchange to be performed.

Description

Method and system for verifying and exchanging battery data

Technical Field

The present invention relates to a method and system, and more particularly, to a method and system for battery data verification and exchange.

Background

The battery exchange station is an energy source station for supplying electric energy for the electric vehicle by replacing batteries in a large scale. However, the battery exchange station occupies a large space, and the density of the battery exchange station cover is too low in the city, causing inconvenience to the user.

Therefore, it is an important subject how to exchange battery data without using a battery exchange station.

Disclosure of Invention

The invention provides a method and a system for verifying and exchanging battery data, which solve the problems in the prior art.

In an embodiment of the present invention, the method for verifying and exchanging battery data includes the following steps: when the first battery is close to the first communication device, a first communication module of the first battery receives a first verification code transmitted from the first communication device; judging whether the first verification code is correct or not through the first battery; when a second battery is close to a second communication device, a second verification code transmitted from the second communication device is received through a second communication module of the second battery; judging whether the second verification code is correct or not through the second battery; when the first verification code is correct and the second verification code is correct, the first battery and the second battery allow data exchange to be performed.

In an embodiment of the present invention, the determining whether the first verification code is correct by the first battery includes: judging whether the first verification code is matched with first verification data of the first battery or not; when the first verification code is matched with the first verification data, judging that the first verification code is correct; when the first verification code is correct, a first prompt action is executed through the first battery.

In an embodiment of the invention, the first prompt is a first display light signal of the first battery and continuously lights.

In an embodiment of the present invention, the determining whether the second verification code is correct by the first battery includes: judging whether the second verification code is matched with second verification data of the second battery or not; when the second verification code is matched with the second verification data, the second verification code is judged to be correct; and when the second verification code is correct, executing a second prompt action through the second battery.

In an embodiment of the invention, the second prompting device is a second battery, and the second display lamp signal of the second battery continuously lights.

In one embodiment of the present invention, allowing data exchange to be performed includes: when the first battery executes the first prompt action and the second battery executes the second prompt action, if the first battery and the second battery are close to each other, the first communication module of the first battery and the second communication module of the second battery are used for establishing communication, so that data exchange is allowed to be executed.

In one embodiment of the present invention, performing a data exchange includes: first battery data of the first battery is copied to the second battery, wherein the first battery data includes first verification data.

In one embodiment of the present invention, performing a data exchange includes: first battery data of the first battery and second battery data of the second battery are exchanged with each other, wherein the first battery data comprises first verification data, and the second battery data comprises second verification data.

In one embodiment of the present invention, performing a data exchange comprises: and transferring the first battery data of the first battery into the second battery, and deleting the first battery data from the first battery, wherein the first battery data comprises first verification data.

In an embodiment of the invention, the method further includes: during execution of the data exchange, the first battery transitions from the first cue action to perform a third cue action, and the second battery transitions from the second cue action to perform a fourth cue action. After the data exchange is performed, the first battery stops the third prompting action, and the second battery stops the fourth prompting action.

In an embodiment of the present invention, a system for verifying and exchanging battery data includes a first communication device, a second communication device, a first battery, and a second battery. The first battery comprises a first communication module, and the second battery comprises a second communication module. When the first battery approaches the first communication device, the first communication module of the first battery receives the first verification code transmitted from the first communication device, and the first battery judges whether the first verification code is correct or not. When the second battery is close to the second communication device, the second communication module of the second battery receives a second verification code transmitted from the second communication device, and the second battery judges whether the second verification code is correct. When the first verification code is correct and the second verification code is correct, the first battery and the second battery allow data exchange to be performed.

In conclusion, compared with the prior art, the technical scheme of the invention has obvious advantages and beneficial effects. By the technical scheme of the invention, battery data exchange can be carried out without using a battery exchange station.

The above description will be described in detail in the following embodiments, and further explanation will be provided for the technical solution of the present invention.

Drawings

The foregoing and other objects, features, advantages and embodiments of the invention will be more readily understood from the following description of the preferred embodiments of the invention taken in conjunction with the accompanying drawings in which:

FIG. 1 is a block diagram of a system for battery data validation and exchange in accordance with one embodiment of the present invention; and

fig. 2 is a flow chart of a method for battery data verification and exchange according to an embodiment of the invention.

[ notation ] to show

In order to make the aforementioned and other objects, features, advantages and embodiments of the present invention more comprehensible, the following description is given:

110 … first battery

111 … first communication module

112 … first processor

113 … first storage device

114 … first display lamp signal

115 … first cell

120 … second battery

121 … second communication module

122 … second processor

123 … second storage device

124 … second display lamp signal

125 … second cell

130 … first communication device

140 … second communication device

200 … method for verifying and exchanging battery data

Steps S201 to S205 …

Detailed Description

In order to make the description of the present invention more complete and complete, reference is made to the various embodiments of the invention as described below and illustrated in the accompanying drawings, in which like reference numerals refer to the same or similar elements. In other instances, well-known elements and steps have not been described in detail in order to avoid unnecessarily obscuring the present invention.

In the description of the embodiments and the claims, reference to "connected" may generally mean that an element is indirectly coupled to another element through another element or that an element is directly coupled to another element without the need for another element.

In the description of the embodiments and the claims, reference to "connected" may generally mean that an element is in wired and/or wireless communication with another element indirectly through another element or that an element is physically connected to another element without passing through the other element.

In the embodiments and claims, the terms "a" and "an" can mean "one or more" unless the context specifically states otherwise.

As used herein, "about" or "approximately" is used to modify the amount of any slight variation which does not alter the nature thereof. Unless otherwise specified, the range of error for values modified by "about", "about" or "approximately" is generally tolerated within twenty percent, preferably within ten percent, and more preferably within five percent.

Fig. 1 is a block diagram of a system for verifying and exchanging battery data according to an embodiment of the invention. As shown in fig. 1, the first battery 110 includes a first communication module 111, a first processor 112, a first storage device 113, a first display lamp 114, and a first battery unit 115. The second battery 120 includes a second communication module 121, a second processor 122, a second storage device 123, a second display signal 124 and a second battery unit 125.

For example, the first communication module 111 and the second communication module 121 may be communication circuits, the first processor 112 and the second processor 122 may be microcontrollers, the first storage device 113 and the second storage device 123 may be memory devices, the first display signal 114 and the second display signal 124 may be light emitting diodes, and the first battery unit 115 and the second battery unit 125 may be battery cores and management circuits thereof.

In terms of architecture, the first processor 112 is electrically connected to the first communication module 111, the first storage device 113, the first display light 114 and the first battery unit 115. The second processor 122 is electrically connected to the second communication module 121, the second storage device 123, the second display light 124 and the second battery unit 125.

In use, when the first battery 110 is close to the first communication device 130 (e.g., a mobile phone, a chip card), the first communication module 111 of the first battery 110 establishes wireless communication with the first communication device 130. When the second battery 120 approaches the second communication device 140 (e.g., a mobile phone, a chip card), the second communication module 121 of the second battery 110 establishes wireless communication with the second communication device 140. When the first battery 110 and the second battery 120 are close to each other, the first communication module 111 of the first battery 110 and the second communication module 121 of the second battery 110 establish wireless communication.

Regarding the battery data verification, when the first battery 110 approaches the first communication device 130, the first communication module 111 of the first battery 110 receives the first verification code transmitted from the first communication device 130, and the first processor 112 determines whether the first verification code is correct. Similarly, when the second battery 120 approaches the second communication device 140, the second communication module 121 of the second battery 120 receives the second verification code transmitted from the second communication device 140, and the second processor 122 determines whether the second verification code is correct. When the first verification code is correct and the second verification code is correct, the first battery 110 and the second battery 120 are allowed to perform data exchange.

With respect to the mechanism for determining whether the first verification code is correct, the first processor 112 determines whether the first verification code matches the first verification data of the first storage device 113. When the first verification code matches the first verification data, the first processor 112 determines that the first verification code is correct. When the first verification code is correct, the first display light 114 executes a first prompt action, and the first prompt action can be that the first display light 114 continuously shines.

Similarly, regarding the mechanism for determining whether the second verification code is correct, the second processor 122 determines whether the second verification code matches the second verification data of the second storage device 123. When the second verification code matches the second verification data, the second processor 122 determines that the second verification code is correct. When the second verification code is correct, the second display light 124 performs a second prompt action, which may be a continuous illumination of the second display light 124.

When the first battery 110 performs the first prompt and the second battery 120 performs the second prompt, if the first battery 110 and the second battery 120 are close to each other, the first communication module 111 of the first battery 110 and the second communication module 121 of the second battery 120 are used to establish communication, so as to allow data exchange.

In an embodiment of the present invention, the data exchange may be a copy access, and the first processor 112 copies the first battery data of the first storage device 113 to the second storage device 123 of the second battery 120 through the first communication module 111. For example, the first battery data may include the first verification data and/or other data. In practice, "copy access" is applicable to the operation of buying a new battery, where the user's original first battery 110 is the old battery and the second battery 120 is the new battery.

In another embodiment of the present invention, the data exchange may be exchange access, the first processor 112 transfers the first battery data of the first storage device 113 to the second storage device 123 of the second battery 120 through the first communication module 111, and the second processor 122 transfers the second battery data of the first storage device 123 to the first storage device 113 of the first battery 110 through the second communication module 121. For example, the first battery data may include the first verification data and/or other data, and the second battery data may include the second verification data and/or other data. In practice, "swap access" may be adapted to borrow a swap.

In another embodiment of the present invention, the data exchange may be a transfer access, the first processor 112 transfers the first battery data of the first storage device 113 to the second storage device 123 of the second battery 120 through the first communication module 111, and the first processor 112 deletes the first battery data of the first storage device 113. For example, the first battery data may include the first verification data and/or other data. In practice, "transfer access" is suitable for the shared economy mode, and the user returns the first battery 110 and takes the second battery 120.

In practice, first battery 110 and second battery 120 may be provided with input devices for the user to select "copy access", "swap access", or "transfer access". Alternatively, the user can select "duplicate access", "exchange access", or "transfer access" via the first communication device 130 (e.g., a mobile phone) and/or the second communication device 140 (e.g., a mobile phone).

During the data exchange, the first display light 114 is switched from the first prompt action (e.g., normally on) to the third prompt action (e.g., flashing light), and the second display light 124 is switched from the second prompt action (e.g., normally on) to the fourth prompt action (e.g., flashing light).

After the data exchange is performed, the first display light 114 stops the third prompt, and the second display light 124 stops the fourth prompt.

To further describe the above method for verifying and exchanging battery data, please refer to fig. 1-2, and fig. 2 is a flowchart of a method 200 for verifying and exchanging battery data according to an embodiment of the invention. As shown in fig. 2, the method 200 for verifying and exchanging battery data includes steps S201 to S205 (it should be understood that the steps mentioned in the present embodiment, except for the specific description of the sequence, can be performed simultaneously or partially simultaneously according to the actual requirement.

In step S201, when the first battery 110 is close to the first communication device 130, the first communication module 111 of the first battery 110 receives the first verification code transmitted from the first communication device 130. In step S202, it is determined whether the first verification code is correct through the first battery 110.

Specifically, in step S202, it is determined whether the first verification code matches the first verification data of the first battery 110; when the first verification code is matched with the first verification data, judging that the first verification code is correct; when the first verification code is correct, a first prompt action is performed through the first battery 110. In an embodiment of the invention, the first indication signal is continuously emitted as the first display light 114 of the first battery 110.

Similarly, in step S203, when the second battery 120 is close to the second communication device 140, the second communication module 121 of the second battery 120 receives the second verification code transmitted from the second communication device 140. In step S204, it is determined whether the second verification code is correct through the second battery 120.

Specifically, in step S204, it is determined whether the second verification code matches the second verification data of the second battery 120; when the second verification code is matched with the second verification data, the second verification code is judged to be correct; when the second verification code is correct, a second prompt action is performed by the second battery 120. In one embodiment of the present invention, the second prompting device is a second display lamp 124 of the second battery 120 that continuously lights.

When the first verification code is correct and the second verification code is correct, in step S205, the first battery 110 and the second battery 120 are allowed to perform data exchange.

Specifically, in step S205, when the first battery 110 performs the first prompt operation and the second battery 120 performs the second prompt operation, if the first battery 110 and the second battery 120 are close to each other, the first communication module 111 of the first battery 110 and the second communication module 121 of the second battery 120 establish communication, so as to allow data exchange.

In step S205, the data exchange may be a copy access, and the performing the data exchange includes: first battery data of the first battery 110 is copied to the second battery 120, wherein the first battery data comprises first authentication data. For example, the first battery data may include the first verification data and/or other data. In practice, "copy access" may be applied to the operation of buying a new battery, where the first battery 110 originally owned by the user is an old battery and the second battery 120 purchased is a new battery.

Alternatively, in step S205, the data exchange may be a swap access, and the performing the data exchange includes: first battery data of the first battery 110 and second battery data of the second battery 120 are exchanged with each other. For example, the first battery data may include the first verification data and/or other data, and the second battery data may include the second verification data and/or other data. In practice, "swap access" may be adapted to borrow a swap.

Alternatively, in step S205, the performing the data exchange includes: the first battery data of the first battery 110 is transferred into the second battery 120, and the first battery data is deleted from the first battery 110. For example, the first battery data may include the first verification data and/or other data. In practice, "transfer access" is suitable for the shared economy mode, and the user returns the first battery 110 and takes the second battery 120.

In the method 200 for verifying and exchanging battery data, during the data exchange, the first battery 110 is switched from the first prompt (e.g. normally on) to the third prompt (e.g. flashing light), and the second battery 120 is switched from the second prompt (e.g. normally on) to the fourth prompt (e.g. flashing light). After the data exchange is performed, the first battery 110 stops the third prompting action, and the second battery 120 stops the fourth prompting action.

Although the present invention has been described with reference to the above embodiments, it should be understood that various changes and modifications may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A method for battery data verification and exchange, the method comprising:

when a first battery approaches a first communication device, a first communication module of the first battery receives a first verification code transmitted from the first communication device;

judging whether the first verification code is correct or not through the first battery;

when a second battery is close to a second communication device, a second communication module of the second battery receives a second verification code transmitted from the second communication device;

judging whether the second verification code is correct or not through the second battery; and

when the first verification code is correct and the second verification code is correct, the first battery and the second battery allow data exchange to be performed.

2. The method of claim 1, wherein determining whether the first verification code is correct by the first battery comprises:

judging whether the first verification code is matched with first verification data of the first battery or not;

when the first verification code is matched with the first verification data, judging that the first verification code is correct; and

when the first verification code is correct, a first prompt action is executed through the first battery.

3. The method of claim 2, wherein the first alert is a first display light of the first battery that is continuously illuminated.

4. The method of claim 2, wherein determining whether the second verification code is correct via the first battery comprises:

judging whether the second verification code is matched with second verification data of the second battery or not;

when the second verification code is matched with the second verification data, judging that the second verification code is correct; and

when the second verification code is correct, a second prompt action is executed through the second battery.

5. The method of claim 4, wherein the second prompt is a second display signal of the second battery that is continuously illuminated.

6. The method of claim 4, wherein allowing the data exchange to be performed comprises:

when the first battery executes the first prompt action and the second battery executes the second prompt action, if the first battery and the second battery are close to each other, the first communication module of the first battery and the second communication module of the second battery are communicated with each other, so that the data exchange is allowed to be executed.

7. The method of claim 6, wherein performing the data exchange comprises:

copying first battery data of the first battery to the second battery, wherein the first battery data comprises the first verification data.

8. The method of claim 6, wherein performing the data exchange comprises:

exchanging a first battery data of the first battery with a second battery data of the second battery, wherein the first battery data comprises the first verification data, and the second battery data comprises the second verification data.

9. The method of claim 6, wherein performing the data exchange comprises:

and transferring first battery data of the first battery into the second battery, and deleting the first battery data from the first battery, wherein the first battery data comprises the first verification data.

10. The method of claim 6, further comprising:

during the data exchange, the first battery is switched from the first prompt action to execute a third prompt action, and the second battery is switched from the second prompt action to execute a fourth prompt action;

after the data exchange is performed, the first battery stops the third prompt action, and the second battery stops the fourth prompt action.

11. A system for battery data verification and exchange, the system comprising:

a first communication device;

the first battery comprises a first communication module, when the first battery is close to the first communication device, the first communication module of the first battery receives a first verification code transmitted from the first communication device, and the first battery judges whether the first verification code is correct or not;

a second communication device;

and the second battery comprises a second communication module, when the second battery is close to the second communication device, the second communication module of the second battery receives a second verification code transmitted from the second communication device, the second battery judges whether the second verification code is correct, and when the first verification code is correct and the second verification code is correct, the first battery and the second battery allow to execute data exchange.