CN117955196A

CN117955196A - Battery exchanging battery selecting method and battery energy station and computer program product thereof

Info

Publication number: CN117955196A
Application number: CN202311143779.8A
Authority: CN
Inventors: 谢欣燕
Original assignee: Kwang Yang Motor Co Ltd
Current assignee: Kwang Yang Motor Co Ltd
Priority date: 2022-10-31
Filing date: 2023-09-06
Publication date: 2024-04-30
Also published as: TW202419308A; JP2024066451A; FR3141574A1; TWI815717B

Abstract

The invention provides a battery exchange battery selection method and a battery energy station thereof, which are suitable for an electronic device for accommodating and charging a plurality of batteries. First, a battery exchange request is received. Then, a battery state of each battery is obtained, wherein the battery state at least comprises a battery electric quantity and a battery charging cycle number. In a battery selection operation, a candidate battery is selected from the batteries according to the battery state of each battery. The battery selection operation is sequentially selected according to the battery power and the battery charging cycle times, and the battery with the highest battery power and the smallest battery charging cycle times is preferentially selected and provides candidate batteries corresponding to the battery exchange requirement.

Description

Battery exchanging battery selecting method and battery energy station and computer program product thereof

Technical Field

The present invention relates to a battery station and a battery selection method for battery exchange, and more particularly, to a battery station and a battery selection method for battery exchange, which can select a battery in a battery station according to a battery state of the battery, a position of the battery and/or a height of a user to provide battery exchange.

Background

In recent years, with the rising environmental awareness and the advancement of electric vehicle technology, development of electric vehicles using electric energy as a power source instead of conventional vehicles using fossil fuel as power has become an important goal in the automotive field, and thus electric vehicles have become popular. In order to improve the voyage and the use willingness of electric vehicles, many countries or cities have already planned to set charging stations and battery energy stations in public places so as to provide charging or battery exchange for electric vehicles and/or electric motorcycles, so that the electric vehicles are more convenient to use.

The peak and off-peak charging or battery requirements may be different for different electric vehicles. For example, the battery demand of an electric motorcycle during peak hours may be higher than during off-peak hours. During peak periods, the battery power station must charge the battery at a high rate in order to quickly bring the battery to a full state. However, during off-peak hours, the battery energy station can charge the battery slowly on the premise of saving cost, as the battery demand is not high, so as to meet the specific battery demand.

On the other hand, users of electric motorcycles often use battery-exchanged power replenishment mechanisms during busy commute periods, as battery charging takes time to wait. Generally, one of the important costs for battery manufacturers is that rechargeable batteries have their life cycle limitations. Therefore, how to properly charge and exchange the batteries in the battery power station is also an urgent problem to be solved in the industry.

Disclosure of Invention

In view of this, the present invention provides a battery energy station and a battery selection method for battery exchange thereof.

A battery power station of an embodiment of the invention has a battery housing system including a plurality of batteries, an energy module for charging the batteries, and a processing unit. The processing unit receives a battery exchange request and obtains a battery state of each battery. The battery state at least comprises a battery electric quantity and a battery charging cycle number. In a battery selection operation, the processing unit selects a candidate battery from the batteries according to the battery state of each battery. The battery selection operation is sequentially selected according to the battery power and the battery charging cycle times, and the battery with the highest battery power and the smallest battery charging cycle times is preferentially selected and provides candidate batteries corresponding to the battery exchange requirement.

The battery selection method for battery exchange is suitable for an electronic device for accommodating and charging a plurality of batteries. First, a battery exchange request is received. Then, a battery state of each battery is obtained, wherein the battery state at least comprises a battery electric quantity and a battery charging cycle number. In a battery selection operation, a candidate battery is selected from the batteries according to the battery state of each battery. The battery selection operation is sequentially selected according to the battery power and the battery charging cycle times, and the battery with the highest battery power and the smallest battery charging cycle times is preferentially selected and provides candidate batteries corresponding to the battery exchange requirement.

In some embodiments, a placement time for each battery to be placed in the electronic device/battery power station is obtained, and in a battery selection operation, a candidate battery is selected from the batteries according to a battery state of each battery and the placement time for each battery to be placed in the electronic device/battery power station. The battery selection operation is sequentially selected according to the battery power, the battery charging cycle times and the placement time of the battery in the electronic equipment/the battery energy station, and the battery with the highest battery power, the minimum battery charging cycle times and the longest placement time is selected preferentially.

In some embodiments, for each of the batteries, it is determined whether the battery level of the corresponding battery is above a predetermined threshold or a predetermined threshold ratio, and the battery is excluded from the battery selection operation when the battery level of the corresponding battery is not above the predetermined threshold or the predetermined threshold ratio.

In some embodiments, a specific battery is received by a specific battery slot to generate a battery exchange request, and a set position of the corresponding specific battery slot in the battery power station is obtained. In the battery selecting operation, a candidate battery is selected from the batteries according to the battery state and the setting position of each battery. The battery selection operation is sequentially selected according to the battery power, the battery charging cycle number and the setting position, and the battery with the highest battery power, the minimum battery charging cycle number and the closest setting position is preferably selected.

In some embodiments, a particular battery is received by a particular battery compartment to generate battery exchange requests. According to the specific battery, obtaining the height information of a corresponding user, and in the battery selecting operation, selecting a candidate battery from the batteries according to the battery state and the height information of each battery. The battery selection operation is sequentially selected according to the battery power, the battery charging cycle number and the height data, and the battery having the highest battery power, the minimum battery charging cycle number and a battery tank closest to the height data is preferably selected.

The above method of the present invention may exist in a program code manner. When the program code is loaded into and executed by a machine, the machine becomes an apparatus for practicing the invention.

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

Drawings

Fig. 1 is a schematic diagram showing a battery power station according to an embodiment of the invention.

Fig. 2 is a schematic diagram showing a battery power station according to another embodiment of the invention.

Fig. 3 is a flowchart showing a battery selection method for battery exchange according to an embodiment of the invention.

Fig. 4 is a flowchart showing a battery selection method of battery exchange according to another embodiment of the present invention.

Fig. 5 is a flowchart showing a battery selection method for battery exchange according to another embodiment of the present invention.

Fig. 6 is a flowchart showing a battery selection method for battery exchange according to another embodiment of the present invention.

Fig. 7 is a flowchart showing a battery selection method for battery exchange according to another embodiment of the present invention.

List of reference numerals

100-Battery energy station

110-Battery storage system

112-Battery

120-Energy module

130-Network connection unit

140 To processing unit

200-Far end server

210-Network

S310, S320, S330, S340-step

S410, S420, S430, S440, S450-step

S510, S520, S530, S540, S550 to step

S610, S620, S630, S640, S650-step

S710, S720, S730.

Detailed Description

Fig. 1 shows a battery power station according to an embodiment of the invention. The battery power station 100 according to the embodiment of the present invention may be applied to an electronic device. As shown, the battery power station 100 at least includes a battery housing system 110, an energy module 120, a network connection unit 130, and a processing unit 140. The battery housing system 110 has a specific mechanism (not shown) for housing a plurality of batteries 112 and selectively locking or unlocking the batteries. The battery power station 100 may provide a battery to at least one powered device, such as an electric motorcycle, an electric car, for access. The power module 120 may be electrically coupled to a power grid (not shown) to obtain a total current for supplying power to the battery station, and charge the battery 112 according to the signal of the processing unit 140. It should be noted that the battery housing system 110 may include a charging module corresponding to each battery 112, and the charging module has an upper current limit and/or a lower current limit to charge the corresponding battery. It should be noted that, in some embodiments, the energy module 120 may actively detect the total current supplied to the battery station 100 by the power grid and notify the processing unit 140 of the corresponding total current. The network connection unit 130 may be connected to a network, thereby enabling the battery station 100 to have a network connection capability. In some embodiments, the network may be a wired network, a telecommunications network, and a wireless network, such as a Wi-Fi network, and the like. The processing unit 140 may control the operation of all hardware and software in the battery station 100 and perform the battery selection method for battery exchange of the present invention, the details of which will be described later.

Fig. 2 shows a battery power station according to another embodiment of the invention. Similarly, the battery power station 100 according to the embodiment of the present invention may be suitable for an electronic device, which has a plurality of batteries that can be provided to at least one electric device, such as an electric motorcycle or an electric automobile. The battery power station 100 may have similar elements as in fig. 1 and will not be described again here. The battery station 100 can be connected to a remote server 200 by a network 210, such as a wired network, a telecommunication network, and a wireless network, such as Wi-Fi network, using the network connection unit 130. It is noted that in some embodiments, the remote server 200 may manage other battery power stations located at the same location, or at different locations, simultaneously. As described above, the power module 120 of the battery power station 100 can actively detect the total current supplied to the battery power station 100 by the power grid and notify the processing unit 140 of the information of the corresponding total current. In some embodiments, the remote server 200 may also notify the battery station 100 of the information of the corresponding total current via the network 210. In some embodiments, the remote server 200 may also transmit information related to different periods, such as peak time periods, off-peak periods, etc., to the battery station 100 via the network 210. In some embodiments, the remote server 200 may also transmit information about the associated user to the battery station 100 via the network 210. The battery station 100 can perform related operations based on the received information.

Fig. 3 shows a battery selection method of battery exchange according to an embodiment of the present invention. The battery selection method for battery exchange according to the embodiment of the invention is suitable for an electronic device for storing and charging a plurality of batteries, such as the battery power station of fig. 1.

First, in step S310, a battery exchange request is received. It is noted that in some embodiments, a user may place a battery into the battery compartment of the electronic device/battery power station to create the battery exchange request. In some embodiments, the electronic device/battery power station may receive the battery exchange request from the remote server via the network. Next, in step S320, a battery status of each battery in the electronic device/battery power station is obtained. The battery state may include at least a battery charge and a battery charge cycle number. In step S330, in a battery selection operation, a candidate battery is selected from the batteries according to the battery status of each battery. The battery selection operation is sequentially selected according to the battery power and the battery charging cycle times, and the battery with the highest battery power and the smallest battery charging cycle times is selected preferentially. Thereafter, as by step S340, the candidate battery is provided corresponding to the battery exchange request.

Fig. 4 shows a battery selection method of battery exchange according to another embodiment of the present invention. The battery selection method for battery exchange according to the embodiment of the invention is suitable for an electronic device for storing and charging a plurality of batteries, such as the battery power station of fig. 1. In this embodiment, the battery selection operation may be determined based on the time the battery is in the electronic device/battery station.

First, in step S410, a battery exchange request is received. Similarly, in some embodiments, a user may place a battery into the battery compartment of the electronic device/battery power station to create this battery exchange requirement. In some embodiments, the electronic device/battery power station may receive the battery exchange request from the remote server via the network. Next, in step S420, a battery status of each battery in the electronic device/battery power station is obtained. The battery state may include at least a battery charge and a battery charge cycle number. In step S430, a placement time of each battery in the electronic device/battery power station is obtained. In step S440, in a battery selection operation, candidate batteries are selected from the batteries according to the battery status of each battery and the placement time in the electronic device/battery power station. The battery selection operation is sequentially selected according to the battery power, the battery charging cycle times and the placement time of the battery in the electronic equipment/the battery energy station, and the battery with the highest battery power, the minimum battery charging cycle times and the longest placement time is selected preferentially. Thereafter, as by step S450, the candidate battery is provided corresponding to the battery exchange request.

Fig. 5 shows a battery selection method of battery exchange according to another embodiment of the present invention. The battery selection method for battery exchange according to the embodiment of the invention is suitable for an electronic device for storing and charging a plurality of batteries, such as the battery power station of fig. 1. In this embodiment, the battery selection operation may be determined based on the position of the battery to be placed by the user.

First, in step S510, a specific battery is received by a specific battery slot to generate a battery exchange request, and in step S520, a setting position of the corresponding specific battery slot in the electronic device/battery power station is obtained. Next, in step S530, in the battery selecting operation, a candidate battery is selected from the batteries according to the battery status and the setting position of each battery. The battery selection operation is sequentially selected according to the battery power, the battery charging cycle number and the setting position, and the battery with the highest battery power, the minimum battery charging cycle number and the closest setting position is preferably selected. Thereafter, as by step S540, the candidate battery is provided corresponding to the battery exchange request.

Fig. 6 shows a battery selection method of battery exchange according to another embodiment of the present invention. The battery selection method for battery exchange according to the embodiment of the invention is suitable for an electronic device for storing and charging a plurality of batteries, such as the battery power station of fig. 1. In this embodiment, the battery selection operation may be determined based on the height information of the user.

First, in step S610, a specific battery is received by a specific battery slot to generate a battery exchange request, and in step S620, a user' S high profile is obtained according to the specific battery. Next, in step S630, in the battery selecting operation, a candidate battery is selected from the batteries according to the battery status and the height data of each battery. The battery selection operation is sequentially selected according to the battery power, the battery charging cycle number and the height data, and the battery having the highest battery power, the minimum battery charging cycle number and a battery tank closest to the height data is preferably selected. Thereafter, as by step S540, the candidate battery is provided corresponding to the battery exchange request.

Fig. 7 shows a battery selection method of battery exchange according to another embodiment of the present invention. The battery selection method for battery exchange according to the embodiment of the invention is suitable for an electronic device for storing and charging a plurality of batteries, such as the battery power station of fig. 1. In this embodiment, the battery may be screened in advance according to the battery power before the battery selection operation.

First, in step S710, for each battery, it is determined whether the battery power of the corresponding battery is higher than a predetermined threshold value or a predetermined threshold ratio. Note that the predetermined threshold and the predetermined threshold ratio may be set according to different applications and requirements. For example, the predetermined threshold ratio may be 80% of the maximum saturated capacity of the battery. It is noted that the predetermined threshold ratio is merely an example, and the present invention is not limited thereto. When the battery power of the corresponding battery is higher than the predetermined threshold value or the predetermined threshold ratio (yes at step S720), the flow is ended. When the battery level of the corresponding battery is not higher than the predetermined threshold or the predetermined threshold ratio (no in step S720), the battery is excluded from the battery selection operation in step S730.

It should be noted that, in some embodiments, the battery selection operation may be performed simultaneously according to the battery status of each battery, such as the battery power and the battery charging cycle number, the placement time of each battery in the electronic device/battery power station, the placement position of the corresponding specific battery slot in the electronic device/battery power station, and/or the height information of the corresponding user. In some embodiments, the battery selection operation is sequentially selected according to the battery power, the battery charging cycle number, the placement time of each battery in the electronic device/battery station, the placement position of the corresponding specific battery slot in the electronic device/battery station, and the height data of the corresponding user, and the battery having the highest battery power, the minimum battery charging cycle number, the longest placement time, the closest placement position, and the battery placed in a battery slot closest to the height data is preferentially selected.

Therefore, by means of the battery energy station and the battery selection method for battery exchange of the battery energy station, the battery in the battery energy station can be selected according to the battery state of the battery, the time of the battery in the equipment, the position of the battery and/or the height of a user, so that the battery exchange is provided, and convenience of the user is improved under the condition that the battery exchange requirement is met.

The methods of the present invention, or certain aspects or portions thereof, may exist in program code. The program code may be embodied on a tangible medium, such as a floppy diskettes, CD-ROMs, hard drives, or any other machine-readable storage medium, or any computer program product, wherein, when the program code is loaded into and executed by a machine, such as a computer, the machine becomes an apparatus for practicing the invention. Program code may also be transmitted over some transmission medium, such as electrical wiring or cabling, through fiber optics, or via any other form of transmission, wherein, when the program code is received and loaded into and executed by a machine, such as a computer, the machine becomes an apparatus for practicing the invention. When implemented in a general-purpose processing unit, the program code combines with the processing unit to provide a unique apparatus that operates analogously to specific logic circuits.

Although the present invention has been described with reference to the preferred embodiments, it should be understood that the invention is not limited thereto, but may be modified and altered by persons skilled in the art without departing from the spirit and scope of the invention.

Claims

1. A battery selection method for battery exchange, which is suitable for an electronic device for storing and charging a plurality of batteries, comprising the following steps:

receiving a battery exchange request;

obtaining a battery state of each battery in the electronic equipment, wherein the battery state at least comprises a battery electric quantity and a battery charging cycle number;

Selecting a candidate battery from the batteries according to the battery state of each battery, wherein the battery selection operation is sequentially selected according to the battery electric quantity and the battery charging cycle times, and the battery with the highest battery electric quantity and the smallest battery charging cycle times is preferentially selected; and

The candidate battery is provided corresponding to the battery exchange requirement.

2. The battery selection method of battery exchange according to claim 1, further comprising the steps of:

Obtaining the placement time of each battery in the electronic equipment; and

In the battery selecting operation, the candidate battery is selected from the batteries according to the battery state of each battery and the placement time of the battery in the electronic equipment, wherein the battery selecting operation is sequentially selected according to the battery electric quantity, the battery charging cycle times and the placement time of the battery in the electronic equipment, and the battery with the highest battery electric quantity, the lowest battery charging cycle times and the longest placement time is selected preferentially.

3. The battery selection method of battery exchange according to claim 1, further comprising the steps of:

For each of the batteries, determining whether the battery charge of the corresponding battery is above a predetermined threshold or a predetermined threshold ratio; and

The battery is excluded from the battery selection operation when the battery charge level of the respective battery is not above the predetermined threshold or the predetermined threshold ratio.

4. The battery selection method of battery exchange according to claim 1, further comprising the steps of:

receiving a specific battery through a specific battery slot of the electronic equipment so as to generate the battery exchange requirement;

Obtaining a setting position of the specific battery slot in the electronic equipment; and

In the battery selecting operation, a candidate battery is selected from the batteries according to the battery state and the setting position of each battery, wherein the battery selecting operation is sequentially selected according to the battery electric quantity, the battery charging cycle times and the setting position, and the battery with the highest battery electric quantity, the smallest battery charging cycle times and the closest setting position is selected preferentially.

5. The battery selection method of battery exchange according to claim 1, further comprising the steps of:

Acquiring a body height data of a corresponding user according to the specific battery; and

In the battery selecting operation, a candidate battery is selected from the batteries according to the battery state of each battery and the height data, wherein the battery selecting operation is sequentially selected according to the battery electric quantity, the battery charging cycle times and the height data, and the battery with the highest battery electric quantity, the smallest battery charging cycle times and the battery tank closest to the height data is preferably selected.

6. A battery power station, comprising:

A battery housing system including a plurality of batteries;

an energy module for charging the battery; and

The processing unit is used for receiving a battery exchange request, obtaining a battery state of each battery, wherein the battery state at least comprises a battery electric quantity and a battery charging cycle number, selecting a candidate battery from the batteries according to the battery state of each corresponding battery in a battery selecting operation, wherein the battery selecting operation is sequentially screened according to the battery electric quantity and the battery charging cycle number, and the battery with the highest battery electric quantity and the lowest battery charging cycle number is preferentially selected and provided corresponding to the battery exchange request.

7. The battery power station of claim 6, wherein the processing unit further obtains a placement time of each of the batteries in the battery power station, and selects the candidate battery from the batteries according to the battery status of each of the batteries and the placement time in the battery power station in the battery selection operation, wherein the battery selection operation is sequentially selected according to the battery charge level, the battery charge cycle number, and the placement time in the battery power station, and the battery having the highest battery charge level, the minimum battery charge cycle number, and the longest placement time is preferentially selected.

8. The battery station of claim 6, wherein a particular battery compartment of the battery receiving system receives a particular battery to generate the battery exchange request, and the processing unit further obtains a set position of the particular battery compartment in the battery station, and selects a candidate battery from the batteries according to the battery status and the set position of each of the batteries in the battery selection operation, wherein the battery selection operation is sequentially selected according to the battery charge level, the battery charge cycle number, and the set position, and the battery having the highest battery charge level, the minimum battery charge cycle number, and the battery closest to the set position is preferentially selected.

9. The battery station of claim 6, wherein a particular battery compartment of the battery receiving system receives a particular battery to generate the battery exchange request, and the processing unit further obtains a body height data for a corresponding user based on the particular battery, and selects a candidate battery from the batteries based on the battery status and the height data for each of the batteries in the battery selection operation, wherein the battery selection operation is sequentially selected based on the battery charge, the battery charge cycle count, and the height data, and the battery having the highest battery charge, the minimum battery charge cycle count, and the battery placed in a battery compartment closest to the height data is preferentially selected.

10. A computer program product loaded by a machine to perform a battery selection method for a battery exchange, adapted for use with an electronic device for receiving and charging a plurality of batteries, said computer program product comprising:

a first program code for receiving a battery exchange request;

A second program code for obtaining a battery status of each battery in the electronic device, wherein the battery status at least comprises a battery power and a battery charging cycle number;

A third program code for selecting a candidate battery from the batteries according to the battery status of each battery in a battery selection operation, wherein the battery selection operation is sequentially selected according to the battery power and the battery charging cycle number, and the battery having the highest battery power and the minimum battery charging cycle number is preferentially selected; and

And fourth program code for providing the candidate battery in response to the battery exchange request.