JPH05137274A - Charging equipment - Google Patents

Abstract

PURPOSE:To make it possible to charge adequately by detecting utilization data including use time for a battery to be charged. CONSTITUTION:A bar code reader 1 comprises a slave unit 3 and a master unit 5. Time for using a battery 7 by the slave unit is counted by a timer 13. The microcomputer 21 for controlling the master unit starts to charge a battery 7 by a charging circuit 25 when the slave unit 3 is set to the master unit 5. When charging is started, a microcomputer 11 for controlling the slave unit receives a charge status signal as interrupt signal from a charging detector 9, calculates the charging time based on the counter values of the timer 13 and sends out the results to the microcomputer 21 for controlling the master unit through a communication function section 15 for slave unit and a communication function section 17 for master unit. The microcomputer 21 for controlling the master unit receives the calculated charging time and charges battery only for charging time based on the time counting by timer 23.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a charging device for performing proper charging based on the usage state of a storage battery.

[0002]

2. Description of the Related Art A conventional charging device includes a device which detects a terminal voltage and a charging current of a storage battery at the time of charging and controls charging, particularly charging time (Japanese Patent Laid-Open No. 1-232182).
8). This device is provided with a circuit for detecting the terminal voltage of the storage battery, a circuit for detecting the charging current, a power supply circuit for charging, a timing circuit, and a circuit for stopping charging. At the time of charging, the time from the start of charging until the terminal voltage reaches a predetermined control voltage is measured. Assuming that the counted time indicates the discharge state of the storage battery, the subsequent charging time is calculated based on the time. When the calculated time elapses, it is determined that the charging state is appropriate, and the charging is stopped.

[0003]

However, the situation in which the storage battery is charged varies greatly depending on the type and deterioration state of the storage battery. In the conventional charging device, as described above, the charging time is determined by the rise of the terminal voltage during charging. For this reason, the charging time was greatly affected by the type and deterioration state of the storage battery, and therefore, some storage batteries could not be charged properly.
It is considered that this is largely due to the fact that the charging time was determined only by the situation at the time of charging without incorporating any information on how much the storage battery was used.

In view of the above problems, it is an object of the present invention to detect usage data including the usage time of a storage battery to be charged and to enable proper charging.

[0005]

To achieve this object, the present invention has the following configuration. That is, as shown in FIG. 4, based on the storage battery that drives the electronic device, the use state detection unit that can detect the use data including the use time of the storage battery, and the use data detected by the use state detection unit. Charging condition setting means for setting charging conditions,
A gist of a charging device comprising: a charging unit that performs charging based on a charging condition set by the charging condition setting unit.

[0006]

In the charging device of the present invention, the usage data including the usage time of the storage battery is detected by the usage status detecting means. The usage data including the usage time more accurately indicates the discharge state of the storage battery than the data at the time of charging. The charging condition of the storage battery to be charged is set by the charging condition setting means based on this usage data, and the charging is performed by the charging means. Since the usage data indicates the discharge state of the storage battery, it is possible to properly determine the charging condition.

In this way, the storage battery to be charged can be appropriately charged.

[0008]

Embodiments of the present invention will now be described in detail with reference to the drawings. FIG. 1 is a block diagram of a bar code reader 1 as an embodiment of the present invention. The barcode reader 1 is a child device 3
And a master unit 5.

The slave unit 3 comprises a storage battery 7, a charge detection unit 9, a slave unit control microcomputer 11, a timer 13 and a slave unit communication function unit 15. The storage battery 7 is a power source of the child device 3. The charge detection unit 9 detects whether the storage battery 7 is in a charged state or in a used state. Storage battery 7
Then, the charging detection unit 9 detects this as a charging state. The detected signal is sent to the slave unit control microcomputer 11. The slave unit control microcomputer 11 is a data bus, C
It is composed of a PU, a memory, an I / O, etc., and controls each circuit (not shown) that performs various functions as a barcode reader of the slave unit 3 and also functions as a charging condition setting means. The timer 13, which functions as a utilization state detecting unit, operates under the control of the slave unit control microcomputer 11, and counts the time during which the storage battery 7 outputs the drive current. The slave device communication function unit 15 enables non-contact data communication with the outside. This data communication is performed under the control of the slave unit control microcomputer 11.

The master unit 5 comprises a master unit communication function section 17, a sensor 19, a master unit control microcomputer 21, a timer 23, a charging circuit 25 and an external communication interface connector 27. The master unit communication function unit 17 performs data communication with the slave unit communication function unit 15 of the slave unit 3. This data communication is performed under the control of the master unit control microcomputer 21. The sensor 19 operates when the child device 3 is set on the parent device 5.
The signal from the sensor 19 is sent to the master unit control microcomputer 21. The master unit control microcomputer 21 is a data bus, CP
It is composed of a U, a memory, an I / O, etc., and controls each circuit (not shown) that performs each function of the master device 5 such as communication with an external electronic device, and also performs a part of the function of the charging means. The timer 23 measures time under the control of the master unit control microcomputer 21. The charging circuit 25, which plays a part of the charging condition, is controlled by the master unit control microcomputer 21.
The storage battery 7 is charged. The external communication interface connector 27 is a connector for connecting the master device 5 and an external electronic device. For example, it is for connecting to an external electronic device and for inputting / outputting data between the electronic device and the master unit control microcomputer 21.

When the slave unit 3 is set in the master unit 5, the master unit control microcomputer 21 causes the charging circuit 25 to start charging the storage battery 7. When charging starts, the slave unit control microcomputer 1
Reference numeral 1 indicates a charge state signal which is an interrupt signal
Then, the charging time is calculated based on the count value of the timer 13, and the result is sent to the master unit control microcomputer 21 via the slave unit communication function unit 15 and the master unit communication function unit 17. The parent device control microcomputer 21 receives the calculated charging time, and charges the battery for the charging time by the timer 23.

Next, based on a flow chart, the above-mentioned processing by the slave unit control microcomputer 11 and the master unit control microcomputer 21 will be described in detail. Master unit control microcomputer 2
1 performs processing based on the flow of FIG. 2, and the slave unit control microcomputer 11 performs processing based on the flow of FIG.

When the person who has used the slave unit 3 for reading the barcode returns the slave unit 3 onto the master unit 5, the sensor 19 operates and sends a signal to the master unit control microcomputer 21. By this operation, the charging circuit 25 is set so that the storage battery 7 can be charged, and the slave unit communication function unit 15 and the master unit communication function unit 17 are set so that they can communicate with each other. .. The master unit control microcomputer 21 starts the process of the flow of FIG. Charging is started, and the storage circuit 7 is moved from the charging circuit 25.
A direct current is applied to (step 51). Next, the master unit control microcomputer 21 starts preparations for communication between the master unit communication function unit 17 and the slave unit communication function unit 15 (step 53). When the preparation for communication is completed, it waits for reception of the charging time data sent from the communication function unit 15 for slave unit (step 55).

On the side of the slave unit 3, when a charging current flows through the storage battery 7, the charging detection unit 9 detects it. Charge detection unit 9
When detecting the charging current, issues an interrupt command to the slave unit control microcomputer 11. By this interrupt, the slave unit control microcomputer 11 starts the process of the flow of FIG. The slave unit control microcomputer 11 starts the calculation of the charging time setting (step 81). The charging time is set in consideration of the usage time already counted by the timer 13 when the slave 3 is used, the self-discharge of the storage battery 7, and the like. When the charging time is set, this charging time data is sent to the slave device communication function unit 15 (step 83).

Charging time data is sent from the slave unit communication function unit 15 to the master unit communication function unit 17, and the master unit control microcomputer 21 receives the charging time data. Upon receiving this charging time data, the master unit control microcomputer 21 resets and starts the timer 23 (step 5).
7). Charging is continued until the timer 23 advances the time and reaches the charging time (step 59). When the timer 23 exceeds the charging time, the charging ends (step 61). When charging is completed, the master unit control microcomputer 21
Stops the DC supply from the charging circuit 25. This completes the charging of the storage battery 7.

Bar code reader 1 shown in the above embodiment
Set the charging time based on the usage time data of the storage battery 7 when charging the storage battery 7 which is the power source of the child device 3. This enables the storage battery 7 to be appropriately charged without excess or deficiency. Further, the influence of the type and deterioration state of the storage battery 7 is reduced.

In this case, the bar code reader 1 of this embodiment
With respect to a plurality of slave units 3, if one master unit 5 is prepared, each can be appropriately charged. Furthermore, the charging control as described above is not so complicated as a device,
It can be realized at low cost compared to the conventional complicated charge control circuit.

In the present embodiment, the bar code reader 1 is mentioned as an example of the electronic device, but in addition to this, many electronic devices driven by a charged storage battery such as a cordless telephone, an audio device, an OA device, etc. All applications are possible.
At this time, in this embodiment, the charging condition setting means is provided in the child device 3, but it may be provided on the parent device 5 side, and other than the separation type electronic device as in the present embodiment, the child device A storage battery side device such as the device 3 and a charging side device such as the master device 5 may be integrated. Further, the storage battery itself can be provided with a utilization state detecting means, and can also be provided with a charging condition setting means. Therefore, even when only the storage battery is taken out from the electronic device in which the storage battery is used and charged by the charging device, the charging time and the like can be determined based on the information obtained by the means.

Further, the usage data is not limited to the usage time, but by adding data such as voltage and current, the charging condition can be made closer to the optimum one. Various methods such as magnetism, electricity, light, voice, radio waves, and images can be considered as the communication method between the slave 3 and the master 5. As for the charging method, not only those having terminal contacts but also non-contact charging methods such as electromagnetic coupling can be considered.

[0020]

As described in detail above, the charging device of the present invention detects the usage data including the usage time of the storage battery to be charged, and enables proper charging.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a barcode reader according to an embodiment of the present invention.

FIG. 2 is a flowchart of a program executed by the slave unit control microcomputer 11.

FIG. 3 is a flowchart of a program executed by the parent device control microcomputer 21.

FIG. 4 is a diagram illustrating a configuration of the present invention.

[Explanation of symbols]

1 ... Bar code reader, 3 ... Child device, 5 ... Parent device, 7 ... Storage battery, 9 ... Charge detection unit, 11 ...
Microcomputer for controlling slave unit, 13 ... Timer, 15 ... Communication function unit for slave unit, 17 ... Communication function unit for master unit, 19.
..Sensors, 21 ... Master control microcomputers, 23 ...
・ Timer, 25 ・ ・ ・ Charging circuit, 27 ・ ・ ・ External communication interface connector

Claims (1)

[Claims] 1. A storage battery for driving an electronic device, a usage state detection unit capable of detecting usage data including a usage time of the storage battery, and a charging condition set based on the usage data detected by the usage state detection unit. A charging device comprising: a charging condition setting unit that performs charging, and a charging unit that performs charging based on the charging condition set by the charging condition setting unit.