JP3137922B2 - Charging device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a charging device, and
TECHNICAL FIELD The present invention relates to a technique for charging storage batteries mounted on a number of chargers .

[0002]

2. Description of the Related Art There are various types (capacity, shape, etc.) of storage batteries (rechargeable batteries) according to applications and the like.
Alkaline storage batteries (such as nickel-cadmium batteries) are known. These storage batteries have a characteristic that they can be used repeatedly if they are charged even if they are discharged. Here, a charger to which a plurality of storage batteries can be attached is already provided, and charging can be started for the storage battery attached to the charger.

[0003]

However, the number of storage batteries that can be charged by a single charger is limited to the number that can be mounted on that charger. Therefore, when charging storage batteries exceeding the number of storage batteries that can be mounted by one charger, it is necessary to use a plurality of chargers. In this case, in order to start charging in a plurality of chargers, a command to start charging in each of the chargers must be issued. Therefore, there is a problem that the operation becomes complicated. The present invention has been made in view of such a point, and an object of the present invention is to provide a technique for starting charging of a storage battery mounted on each of a plurality of chargers with a simple operation.

[0004]

A first means for solving the problem is to solve the problem.
Means 1 is as described in claim 1. The hand
According to the stage 1, charging is performed by operating the operation unit of the charger.
When a start command is issued, the charge start signal is sent to one charger.
From the communication means to the reception means of the other charger via the connection means.
Next sent. Therefore, each of the chargers
Charging of the stored battery can be started.

[0005]

[Second means for solving the problem ]
Means 2 is as described in claim 2. The hand
According to stage 2, the charge capacity calculating means represents the characteristics of the storage battery
The charging capacity is calculated based on the information, and the charging time setting means
Set the charging time based on the charging capacity, and charge
Charge the storage battery for the time. In this way, charging suitable for storage batteries
Overcharging or undercharging due to charging time
Nothing.

[0006]

[Third Means for Solving the Problems ]
Means 3 is as described in claim 3. The hand
According to stage 3, when the required timing is reached, the adding means
Is added to the storage battery by adding the number of charging times or charging time.
Recorded on the recording medium. When the required timing is reached
Is recorded on the recording medium
If the storage battery is pulled out of the charger during charging,
Even accurate information will be recorded. Therefore, the following
Charges are based on more accurate information in each charge
Therefore, appropriate charging can be performed, and the storage battery lasts longer
Can be

[0007]

[Fourth Means for Solving the Problems ]
Means 4 is as described in claim 4. The hand
According to stage 4, a plurality of chargers are cascaded in a ring.
Has been continued. Power storage that can be installed even in this connection mode
Recharge batteries with a simple operation for storage batteries exceeding the number of ponds.
Can be started.

[0008]

[0009]

Embodiments of the present invention will be described below with reference to the drawings. About the outline of this form,
This will be described with reference to FIG. In this embodiment, the present invention is applied to a plurality of (specifically, three) cascade-connected (specifically, three) chargers. Here, FIG. 1 is a conceptual diagram showing the configuration of the present invention.

In FIG. 1, chargers 20, 30, 40
Can be mounted with one or a plurality of storage batteries. In the example of FIG. 1, the storage battery 10 is stored in the charger 20, the storage battery 12 is stored in the charger 30, and the storage battery 1 is stored in the charger 40.
4, 16 are mounted respectively. Examples of the type of storage battery include a lithium ion battery (Li-ion) and a nickel hydride battery (Ni-MH) in addition to a lead storage battery and an alkaline storage battery.
These storage battery types can be selected automatically or manually. Note that these storage batteries may be provided with a recording medium described later. Charger 20 and Charger 3
The connection between the charger 30 and the charger 30 is made by a connection means 38, and the connection between the charger 30 and the charger 40 is made by a connection means 38. These connecting means 28 and 38 are connected by a cable for wired communication, but may be connected by wireless communication. In the case of wireless communication, communication can be performed by radio waves (including infrared rays) or light (including lasers). These communications can be performed in one direction or two directions.

Next, the configuration of the charger 20 will be described. The charger 20 includes a charging unit 22, a transmitting unit 24, and a receiving unit 26. The charging means 22 charges the storage battery 10 according to a command from the receiving means 26.
The receiving means 26 receives a charging start signal sent from another charger 30 or the like via the connecting means 28. The transmitting unit 24 transmits a charging start signal to another charger 40 or the like according to a command from the receiving unit 26. Here, the configuration of the chargers 30 and 40 is the same as that of the charger 20, and the description thereof will be omitted. Figure 1
And the transmitting means 24 and the receiving means 4
6 is connected by connecting means 48. Therefore, a command to start charging can be issued from any charger.
In addition, the three chargers 20, 30, and 40 have transmitting means 2
4, 34 , 44 and the receiving means 26 , 36 , 46 are provided, respectively, but are not limited to this configuration. That is,
When fixing the charger (the charger 40 in FIG. 1) that issues a command to start charging and the charger on the end side in the cascade connection (the charger 20 in FIG. 1), The transmitting means (for example, the transmitting means 24) and the receiving means (for example, the receiving means 46) may be omitted.

In the following, for simplicity of explanation, the charger 4
A case will be described where 0 is a charger for issuing a command to start charging, and a charging start signal is transmitted from the charger 40 to the charger 20 via the charger 30 to charge the storage batteries 10, 12, 14, and 16. . When the operator issues a command to start charging to the charger 40, the command is received by the charging means 42. Charging means 4 receiving a command to start charging
2 starts charging the storage batteries 14 and 16 and transmits a charging start signal by the transmission means 44. In the charger 30, the receiving unit 36 receives the charging start signal transmitted through the connecting unit 38 and transmits the signal to the charging unit 32. The charging unit 32 that has received the charging start signal starts charging the storage battery 12 and transmits a charging start signal by the transmitting unit 34. Further, the charger 20 receives the charging start signal transmitted through the connection unit 28 and receives the charging start signal.
6 is transmitted to the charging means 22. The charging unit 22 that has received the charging start signal starts charging the storage battery 10. Therefore, the charging of the storage batteries attached to each of the plurality of chargers (chargers 20, 30, and 40) is started only by instructing one charger (charger 40) to start charging. Therefore, charging can be started with a simple operation for storage batteries exceeding the number of storage batteries that can be mounted.

Next, a more specific embodiment will be described.
This will be described with reference to FIGS. Here, FIG. 2 shows an external view of the charger, FIG.
(B) shows a plan view. FIG. 3 shows a connection configuration of the charger. FIG. 4 shows the configuration of the charge control unit. Note that the same elements as those in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted.

In FIG. 2A, a display unit 20a, a transmission connector 20b, a reception connector 20c, a power switch 20d, and a command button 20 are provided on a front panel of the charger 20.
e, a charging control unit 100, a charging circuit 120, and the like. The display unit 20a displays the mounted state (BP, NP1, NP2), the type of the mounted storage battery (Li-ion, Ni-Cd), and the like. FIG.
As shown in (B), the charger 20 is provided with a mounting portion 20f for mounting a storage battery. This mounting part 20
As for f, two storage batteries 10 can be mounted at the same time, or only one storage battery 12 shown in FIG. 3 can be mounted. It is also possible to automatically determine which type and type of storage battery. With this display unit 20a, it is possible to recognize at a glance which type and type of storage battery is mounted.

Returning to FIG. 2A, the transmission connector 20b,
A cable for transmitting / receiving a signal is connected to the receiving connector 20c. For example, as shown in FIG. 3, the cable 28a is connected between the receiving connector 20c of the charger 20 and the transmitting connector 30b of the charger 30.
A stereo mini jack or the like is used for the connector,
A stereo connection cord or the like is used for the cable 28a. Returning to FIG. 2A again, the power switch 20d is a switch for turning on / off the power of the charger 20. The command button 20e is a button for issuing a command (START) to start charging in the charger 20 and / or the other chargers 30 and 40. Note that a command (STOP) to stop charging can also be issued. The charge control unit 100 performs communication with another charger 30 and the like, and performs control for charging the storage battery 10. The charging circuit 120 is a circuit for charging a storage battery. Note that the configurations of the chargers 30 and 40 shown in FIG.

Next, a specific configuration of the charging control section 100 will be described with reference to FIG. Here, the charge control unit provided in the charger 20 will be described.
The charging control units provided in the other chargers 30 and 40 have the same configuration. In FIG. 4, first, the charge control unit 10
0 is CPU (processor) 110, ROM 102, R
AM 104, communication control circuit 106, operation unit 108, display control circuit 112, output processing circuit 114, input processing circuit 1
16. CPU 110 is a ROM
The overall control of the charger 20 is performed according to the charge control program stored in 102. The ROM 102 generally has E
Although a PROM is used, the invention is not limited to this, and an EEPROM or a flash memory may be used. Generally, a DRAM is used as the RAM 104, but a nonvolatile memory such as an SRAM or a flash memory may be used. This RA
M104 includes the number of times of charging (charging time), the latest charging date and time,
Various data such as a charging voltage or input / output signals such as a charging start signal are stored. Note that these data may be stored in the ROM 102 as necessary.

The communication control circuit 106 embodies transmission means and reception means.
This is a circuit for performing communication with the device. The operation unit 108 corresponds to the command button 20e and receives a command from the operator to start charging. The operation unit 108 is not limited to the command button 20e, but may be a unit (a member, a circuit, or a device) that can command the charger 20, such as a wireless remote controller or a mouse. The display control circuit 112 controls the display of the display 112a. The display 112a corresponds to a display lamp in the display unit 20a. In addition,
The display 112a is not limited to a display lamp, but may be a display such as a liquid crystal display device or a CRT capable of displaying the type and type of the storage battery. The output processing circuit 114 is a CPU
Receiving the charging data sent from 110 via bus 118, it sends an activation signal to charging circuit 120. The charging circuit 120 that has received the operation signal charges the storage battery 10. Further, it receives the information and records it on the recording medium 10 a provided in the storage battery 10. As the recording medium 10a, for example, an EEPROM or a flash memory is used.
The input processing circuit 116 converts the voltage value of the storage battery 10 into digital data and sends it to the CPU 110 or the like. Further, information recorded on the recording medium 10a is input and the CPU 110
Etc. Note that each of the above components is a bus 11
8 are connected to each other.

Next, the chargers 20, 30,
The processing procedure for realizing the present invention at 40 will be described with reference to FIGS. FIG. 5 is a flowchart showing the charging process. The flowchart shown in FIG. 5A is the charger 20, the flowchart shown in FIG. 5B is the charger 30, and the flowchart shown in FIG. Respectively. FIG. 6 is a flowchart showing the charge control process. All of the processing procedures shown in these figures are performed by the charging control unit 100 shown in FIG.
The charge control program stored in M102
110 is executed at a predetermined timing. Here, a case will be described in which a storage battery is mounted in each charger in a state as shown in FIG. 3 and a command to start charging in charger 40 is issued.

First, as shown in FIG. 5C, the charger 40 waits until there is a command from the operator to start charging [step S30]. Specifically, waits until an instruction button 40e shown in FIG. 3 (operation unit) is pressed, it is determined that the command button 40e there is a command to start charging when pressed. When there is a command to start charging (YES), a charging start signal is transmitted [Step S].
32]. More specifically, in FIG.
A charging start signal is transmitted to the charger 30 via the. After the transmission, charging of the storage batteries 14 and 16 is started [Step S
34]. In addition, the charger 30 stands by until a charging start signal is received as shown in FIG.
20]. When a charge start signal is received (YE
S), and transmits the charge start signal [Step S2
2]. Specifically, similarly to step S32 above,
A charging start signal is transmitted to the charger 20. After the transmission, charging of the storage battery 12 is started [Step S24]. Further, as shown in FIG. 5A, the charger 40 waits until a charging start signal is received [Step S10]. Then, when the charging start signal is received (YES), charging of the storage battery 10 is started [Step S12]. As described above, if a command to start charging in the charger 40 is issued,
The charging of the storage battery is started not only in the charger 40 but also in the chargers 20 and 30. Therefore, charging of storage batteries 10, 12, 14, 16 exceeding the number of storage batteries that can be mounted can be started by a simple operation .

Next, the above steps S12, S24, S3
4 will be described with reference to FIG. 6. Here, the state shown in FIG. 3, that is, the processing in the charger 20 will be described. First, the voltage value of the storage battery 10 and the recording medium 10a
Is obtained [Step S50].
That is, as shown in FIG. 4, the voltage value of the storage battery 10 and the information recorded on the recording medium 10a are input to the input processing circuit 11.
Input via 6. This information includes the number of times of charging (charging time) of the storage battery 10, the manufacturing site, the date of manufacture, the latest charging date, the charging voltage, the deterioration coefficient, and the like. Next, all or part of the acquired information is displayed [Step S5
2]. In the charger 20 shown in FIG. 3, this content cannot be displayed on the display section 20a having only the display lamp. However, this becomes possible by providing a 7-segment LED, a liquid crystal display device, and the like. By displaying all or part of the information in this manner, information such as the date of manufacture of the storage battery 10 can be obtained.

Further, based on the voltage value and the information obtained in step S50, the optimum charge capacity for charging the storage battery 10 is calculated [step S54]. As a specific calculation method, for example, the charging capacity f is calculated by the following equation based on the deterioration coefficients a, b, and c and the number of days x elapsed from the latest charging date. f = a · exp (−bx) + c Note that the charging capacity f calculated by the above equation is actually
The charging time, the charging voltage (or charging current), and the like are further calculated based on. Further, the deterioration coefficients a, b, and c are information indicating discharge deterioration of the storage batteries, and are different for each storage battery 10.

Then, the storage battery 10 is charged based on the charging time calculated in step S52 (steps S56 and S58). Specifically, as shown in FIG. 4, charging data including the charging time is sent to the output processing circuit 114, and the storage battery 10 is charged through the charging circuit 120. It should be noted that in step S58, step S60 described later is used.
Thailand a number of times to be added, for each fixed period of time (of the required in
May be counted ) . Alternatively, the elapsed time during charging (every minute or every second) may be measured. (Counting means) Further, by this charging, necessary data is updated with respect to information such as the number of times of charging (charging time), the manufacturing site, the date of manufacture, the latest charging date and time, the charging voltage, etc., and is recorded on the recording medium 10a [ Step S60].
That is, information is recorded on the recording medium 10a via the output processing circuit 114 as shown in FIG. For example, in the case of the number of times of charging, which is one of the information, each time the battery is fully charged (the required
(When the timing of ( 1 ) is reached) One time is added, or a value obtained by adding the number of times counted in step S58 to the number of times of charging is recorded. Alternatively, for the charging time, a value obtained by adding the elapsed time measured in step S58 to the charging time is recorded. (Adding Means) According to the above-described processing procedure, the storage battery 10 is charged for a charging time, a charging voltage, or the like that is appropriate, so that overcharging or insufficient charging does not occur. Also, it is possible to determine how much storage battery 10 can be used by displaying the information.

[Other Embodiments] The structure, shape, size, material, number, arrangement, operating conditions, and the like of the other parts of the charging device and the charger described above are limited to those of the above-described embodiment. Not.
For example, each of the following embodiments to which the above embodiment is applied may be implemented. (1) In the above embodiment, three chargers 20, 30, 4
Although the present invention is applied to 0, the present invention is not limited to the number of chargers. That is, the present invention can be similarly applied to two or four or more chargers. In this case, a condition is that a plurality of chargers are communicably connected. (2) Although the chargers 20, 30, and 40 are cascade-connected in FIG. 3, they may be bus-connected as shown in FIG. In this case, the communication control circuit 106 in FIG. 4 needs to be able to communicate with the connection means (the connection units 50, 54, 56, the cable 52, and the like) connected to the bus. In this case, for example, when the charging start signal is transmitted from the charger 40, the chargers 20 and 30 can receive the charging start signal at the same time without having to retransmit the signal in the charger 30. Further, the present invention can be applied to a system in which cascade connection and bus connection are combined. The connected form may be any of a star shape (centralized management), a bus shape , and a ring shape , and these may be arbitrarily combined.

(3) In FIG. 4, the communication control circuit 106
Instead of (or in addition to the communication control circuit 106), the charger may include a wireless communication circuit, an antenna, or the like for performing wireless communication. In this case, as shown in FIG. 8, it is not necessary to connect the chargers with each other by a cable or the like. Therefore, the charger can be freely arranged.
Further, the present invention can be applied to a system in which wired communication by cascade connection and wireless communication are combined. (4) The information recorded on the storage medium of the storage battery is encrypted,
And / or may be recorded after being compressed. The recorded information can be protected by encryption, and more information can be recorded by compression. (5) Although the EEPROM is used as the recording medium 10a, the present invention is not limited to this, and other recording media capable of recording the number of times of charging (charging time), the manufacturing site, the date of manufacture, the latest charging date, the charging voltage, the deterioration coefficient, and the like. May be used. For example, there are a sticker on which a barcode is printed, a member with a hole, and the like.

(6) Instead of the charge control process shown in FIG.
The charge control process shown in FIG. 9 may be executed.
For the sake of simplicity, the same processes are denoted by the same reference numerals as in FIG. 6, and processes different from those in FIG. 6 will be described below. In FIG. 9, in the process of charging the storage battery [Step S56], a predetermined time (for example, every 5 minutes, every 30 seconds)
The required data is updated (added) with respect to information such as the number of times of charging (charging time), the manufacturing site, the date of manufacture, the latest charging date and time, and the charging voltage, and is recorded on the recording medium 10a [Step S7]
0; counting means, adding means]. Then, it is determined whether or not the storage battery has been removed [Step S72]. If the storage battery has not been removed, it is determined whether or not charging has been completed [Step S74]. If the charging has not been completed, Step S5 is determined.
Return to step 8 and continue charging. On the other hand, when the storage battery is removed (YES in step S72) or when charging is completed (YES in step S74), the charge control process ends. According to this processing, since the number of times of charging (charging time) is recorded on the recording medium 10a at regular intervals, accurate information is recorded even when the storage battery 10 is pulled out of the charger during charging. . Therefore, in the next charging, charging is performed based on more accurate information, so that appropriate charging can be performed. Such proper charging can make the storage battery 10 last longer.

[0026]

Other Embodiments The embodiments of the present invention have been described above. This embodiment has aspects of the invention other than the aspects of the invention described in the claims.
Embodiments of the present invention will be enumerated below, and related explanations will be provided as necessary.

[Aspect 1] In a charging apparatus for charging a storage battery mounted on each of a plurality of chargers, a transmitter for transmitting a charge start signal in response to an instruction to start charging,
A charging device that receives the charging start signal and starts charging the storage battery. [Relevant Description of Aspect 1] According to this aspect, charging a storage battery mounted on each of a plurality of chargers only starts by instructing the transmitter to start charging. for that reason,
Charging of storage batteries exceeding the number of storage batteries that can be mounted can be started by a simple operation.

[Embodiment 2] A storage battery for charging and discharging electric energy, comprising a medium capable of recording information indicating characteristics of the storage battery. [Relevant Description of Aspect 2] According to this aspect, the information indicating the characteristics of the storage battery includes the number of times of charging (charging time),
There are date of manufacture, latest charge date, charge voltage, deterioration coefficient, etc. By recording at least one of these data, the characteristics of the storage battery can be known.

[Aspect 3] In a charging method for charging a storage battery mounted on each of a plurality of chargers, an instruction to start charging is issued to one of the chargers, so that the charging of the storage batteries is started by each of the other chargers. Charging method characterized by performing. [Relevant Description of Aspect 3] According to the present aspect, the charging of the storage batteries attached to the other chargers other than the one charger can be performed only by instructing the one charger to start charging. Start. Therefore, charging can be started with a simple operation for storage batteries exceeding the number of storage batteries that can be mounted.

[Mode 4] In the charging device according to the third aspect, the information recorded on the recording medium includes the number of times of charging, and the number of times is counted each time a predetermined time elapses during charging of the storage battery. A charging apparatus comprising: a counting unit; and an adding unit that adds the number counted by the counting unit to the number of times of charging recorded on a recording medium. According to the present aspect, during charging of the storage battery, the counting means counts the number of times at predetermined time intervals, and the adding means adds the number of times to the number of times of charging. Therefore, the number of times of charging is recorded on the recording medium 10a at regular intervals, and accurate information can be recorded even when the storage battery 10 is pulled out of the charger during charging.

[0031]

According to the present invention, when a storage battery mounted on each of a plurality of chargers is charged, only a command to start charging is given to one of the chargers, and each of the plurality of chargers is charged. The charging of the attached storage battery is started. Therefore, charging can be started with a simple operation for storage batteries exceeding the number of storage batteries that can be mounted.

[Brief description of the drawings]

FIG. 1 is a conceptual diagram showing a configuration of the present invention.

FIG. 2 is a diagram showing an appearance of a charger.

FIG. 3 is a diagram showing a connection configuration of a charger.

FIG. 4 is a block diagram illustrating a configuration of a charge control unit.

FIG. 5 is a flowchart showing a charging process.

FIG. 6 is a flowchart showing a charge control process.

FIG. 7 is a diagram showing a connection configuration of a charger.

FIG. 8 is a diagram showing a connection configuration of a charger.

FIG. 9 is a flowchart showing a charge control process.

[Explanation of symbols]

 10, 12, 14, 16 Storage battery 10a Recording medium 20, 30, 40 Charger 20a, 30a, 40a Display unit 20b, 30b, 40b Transmission connector 20c, 30c, 40c Receiving connector 20d, 30d, 40d Power switch 20e, 30e, 40e Command button 20f Attaching section 22, 32, 42 Charging means 24, 34, 44 Transmitting means 26, 36, 46 Receiving means 28, 38, 48 Connecting means 28a, 38a, 48a Cable 100 Charge control unit 102 ROM 104 RAM 106 Communication Control circuit 108 Operation unit 110 CPU 112 Display control circuit 112a Display 114 Output processing circuit 116 Input processing circuit 118 Bus 120 Charging circuit

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-8-33218 (JP, A) JP-A-1-148030 (JP, A) JP-A-5-191365 (JP, A) JP-A-7- 143689 (JP, A) (58) Field surveyed (Int. Cl. ⁷ , DB name) H02J 1/00-13/00 311 H01M 10/42-10/48

Claims (4)

(57) [Claims] Claims: 1. A power storage device mounted on each of a plurality of chargers.
In a charging device for charging a pond, each of the chargers is used to instruct the start of charging.
An operation unit to be operated and a receiving unit for receiving a charging start signal
And the operating unit is operated or the receiving unit is the
When the charging start signal is received, charging of the storage battery is started.
A charging unit, wherein the operation unit is operated or the receiver
When the stage receives the charge start signal, the stage starts the charge start signal.
Transmitting means for transmitting, the transmitting means of one charger and the receiving means of another charger
By connecting each with the connection means,
A charger that cascades multiple chargers. 2. The charging device according to claim 1, wherein the charger is provided before recording on a recording medium provided in the storage battery.
Calculate the charging capacity based on information representing the characteristics of the storage battery
Charging capacity calculating means, based on the calculated charging capacity.
And charging time setting means for setting a charging time, wherein the charging means stores the storage battery for the set charging time.
Charging device to charge. 3. The charging device according to claim 1 or 2,
Oite, charging means, the required Timing when you are charging the battery
When the recording reaches the storage battery, the data is recorded on the recording medium provided in the storage battery.
By adding the recorded number of times of charging or charging time, the recording medium
A charging device having addition means for recording on a body. 4. The method according to claim 1, wherein
Multiple chargers in a ring shape
Charger connected to the card.