JP3522262B2 - Charge control 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 charge control device used for charging a storage battery such as a lead storage battery, an alkaline storage battery, a nickel hydrogen storage battery or a lithium ion storage battery.

[0002]

2. Description of the Related Art In order to always keep a storage battery in an optimum charged state, it is necessary to manage the charging voltage and the charging time.
The charging voltage and the charging time are extremely important for maintaining the performance of the storage battery, and it is necessary to sufficiently manage the storage battery so as not to damage it. A floating charging method and a uniform charging method are known as methods for performing appropriate charging.

The floating charging method is a method of charging the battery only to compensate for self-discharge so that the storage battery is always in a fully charged state. When performing floating charging, it is necessary to maintain the floating charging voltage value at a specified value. The equalization charging method is charging performed by increasing the charging voltage in order to correct the variation of the unit cells in the assembled battery and make the performance uniform.

For example, in the case of a lead storage battery for ships, floating charging is performed at 26.2V. Equal charging is performed semi-annually or annually at 27.6V for 24 hours. Alternatively, when uniform charging is performed for a long time, or when it is difficult to secure the charging time and rapid charging is desired, it is necessary to perform charging at an appropriate charging voltage according to the charging time. The charging time and the charging voltage have a relationship as shown in FIG. 3, for example.

Conventionally, as a charger used for charging such a storage battery, a charger capable of manually or automatically setting a charging voltage is known. There is also a charger in which the charging time can be set by a timer. When floating charging is performed, the charging voltage may be set to a predetermined floating charging voltage and continuously charged.

[0006]

However, when performing uniform charging, there is a relationship between the charging time and the charging voltage as shown in FIG. 3, so an appropriate uniform charging voltage corresponding to the charging time is shown in FIG. It is necessary to determine the relationship, manually set the charger, and manually set the charging time appropriately. Furthermore, after the equal charge is over,
The charger needs to be manually reset to the floating charge voltage.

As described above, in the conventional charger, the person who operates the charger must manage the charging time and the charging voltage based on the relationship shown in FIG. If the charging voltage and charging time are not managed properly, the storage battery may be damaged and the life of the storage battery may be shortened.

Therefore, the present invention provides a charge control device capable of performing appropriate charge management of a storage battery regardless of who operates it.

[0009]

The charging control device of the present invention includes an operation panel having a plurality of charging instruction switches for instructing charging by the floating charging method, the uniform charging method and the quick charging method, and a storage battery. The charging instruction switch for floating charging is provided with a control unit that controls the voltage output to the charging terminal, and the control unit issues an instruction to output a preset floating charging voltage to the charging terminal of the storage battery. The charging instruction switch for equalizing the charge, to the control unit, to the charging terminal of the storage battery, the preset equalizing voltage is set in advance, and the equalizing voltage is set in advance for each equalizing voltage. It gives instructions to output for a set period of time,
The charge instruction switch for quick charging is such that the control unit is provided with a rapid charging voltage set in advance at the charging terminal of the storage battery in a stepwise manner for each rapid charging voltage for a certain period of time. The control unit gives an instruction to output, and in the case of an instruction by the charging instruction switch for equalizing charging or an instruction by the charging instruction switch for rapid charging, the control unit controls the output time of each charging instruction switch. After a lapse of time, the floating charging voltage is controlled to be output to the charging terminal of the storage battery.

According to this charge control device, when the operator carries out the floating charge, the uniform charge or the rapid charge of the storage battery, the operator desires from among a plurality of charge instruction switches arranged on the operation panel. If you operate the charging instruction switch corresponding to the charging method of, the constant charging voltage (floating charging voltage, uniform charging voltage, quick charging voltage) preset for each charging method is applied to the charging terminal of the storage battery. Only the charging time appropriate for each charging method is output. When the charge instruction switch for equal charge or quick charge is operated, the constant charge voltage (equal charge voltage, quick charge voltage) preset for each charging method is output for the predetermined charge time. After that, the floating charging voltage is output to the charging terminal of the storage battery.

Here, the floating charging voltage, the uniform charging voltage, and the rapid charging voltage are preset based on the relationship between the charging time and the charging voltage as shown in FIG. The floating charging voltage is a voltage lower than the uniform charging voltage and the rapid charging voltage in order to perform charging to compensate for self-discharge. The equal charging voltage is a voltage higher than the floating charging voltage. The rapid charging voltage is a voltage higher than the uniform charging voltage.

The operation panel is formed by arranging a plurality of charging instruction switches in groups of a charging instruction switch for floating charging, a charging instruction switch for uniform charging and a charging instruction switch for quick charging. Is desirable. As a result, each charging instruction switch
This makes it easier to visually recognize each charging method of equal charge and quick charge.

In particular, the charging instruction switch for equalizing charging and the charging instruction switch for rapid charging in which the charging voltage and the output time are set in advance stepwise are grouped so that even among the respective charging methods. It becomes easy to select the charging voltage and output time set for each.

It is desirable that the operation panel has a charging instruction switch for uniform charging and a charging instruction switch for rapid charging, and the output times preset for the respective charging instruction switches are described. As a result, it becomes possible to visually recognize the time until completion of charging when charging is performed by each charging method.

It is desirable that the operation panel further comprises a time display section for displaying the remaining time of the voltage output by the control section. As a result, it becomes possible to visually recognize the time until the completion of charging while the charging is being performed by the uniform charging or the rapid charging.

[0016]

1 is a block diagram showing a configuration of a charge control device according to an embodiment of the present invention, and FIG. 2 is a front view of an operation panel of the charge control device of FIG.

As shown in the figure, the charging control device in this embodiment is connected to an operation panel 1 for performing various operations on the device, a control unit 2 for performing various controls of the device, and a storage battery (not shown). Terminal 3 for charging to output electric power for charging
With. The operation panel 1 includes a floating charging switch 11 as a charging instruction switch for instructing charging by each charging method, and uniform charging switches 12a, 12b, 12c, 12
d and the quick charging switches 13a and 13b, and a time display unit 14 that displays the remaining charging time.

Floating charge switch 11, uniform charge switches 12a-12d and quick charge switches 13a, 13b.
2 are arranged on the operation panel 1 in groups according to the charging method. Also, the equalization switch 1
The output times (48H, 24H, 20H, 8H, 5H, 3H) preset for the switches 2a to 12d and the quick charging switches 13a and 13b are described as described later.

The floating charge switch 11 is
This is a switch for giving an instruction to the control unit 2 to output a preset floating charging voltage to the charging terminal 3.
For example, when the voltage suitable for floating charging is 26.2V, the control unit 2 continuously sets the electric power supplied from the power supply 4 to 26.2V to the charging terminal 3 when the floating charging switch 11 gives an instruction. Control to output to.

The equalizing charge switches 12a to 12d cause the control unit 2 to preliminarily set the equalizing charging voltage set in advance in the charging terminal 3 stepwise for each equalizing charging voltage at the time of equalization charging. It is a switch for giving an instruction to output for a set fixed time. For example, based on the relationship between the charging voltage and the charging time shown in FIG.
The uniform charging voltage and the output time, which are set in steps from a to 12d, are 27.12V / 48H and 27.6V /, respectively.
It becomes 24H, 27.96V / 20H, 28.8V / 8H. The control unit 2 uses these equalization charge switches 12a to 1
When an instruction is given by 2d, the power supplied from the power source 4 is controlled to be output to the charging terminal 3 as a corresponding uniform charging voltage for a certain time corresponding to each charging voltage.

The rapid charging switches 13a and 13b are configured such that, at the time of rapid charging, the control unit 2 is provided with a rapid charging voltage preset at the charging terminal 3 in advance for each rapid charging voltage. It is a switch for giving an instruction to output for a set fixed time. For example, based on the relationship between the charging voltage and the charging time shown in FIG.
The rapid charging voltage and the output time set in steps a and 13b are 29.4V / 5H and 30V / 3H, respectively. The control unit 2 uses the quick charge switches 13a, 1
When instructed by 3b, the electric power supplied from the power source 4 is controlled to be output to the charging terminal 3 as a corresponding fast charging voltage for a certain period of time.

The control unit 2 also includes a uniform charging switch 12
When a voltage is output to the charging terminal 3 in response to an instruction from a to 12d or the quick charging switches 13a and 13b, the time display unit 14 displays the remaining time of the voltage output in time units. That is, the time display unit 14 counts down the remaining charging time from the time when an instruction is given by each switch until the completion of charging. In addition, if the floating charge switch 11 is continuously pressed for 5 seconds during this countdown,
The control unit 2 switches the display of the time display unit 14 to the display in units of seconds.

Further, the control unit 2 includes the uniform charging switch 1
2a to 12d or the quick charging switches 13a and 13b, the voltage output to the charging terminal 3 is the same voltage as when the floating charging switch 11 gives an instruction after the output time instructed by each switch has elapsed. Switch to automatically.

As described above, the charging control device in this embodiment corresponds to the voltage output to the charging terminal 3 for the floating charging switch 11, the uniform charging switches 12a-12d, and the quick charging switches 13a, 13b. 7 levels are set. Therefore, when the user performs the floating charging, the uniform charging or the quick charging on the storage battery, the floating charging switch 11 arranged on the operation panel 1,
Equal charging switches 12a-12d, quick charging switch 1
Only by operating a switch corresponding to a desired charging method from among 3a and 13b, it is possible to perform charging for an appropriate charging time with a constant charging voltage preset for each charging method.

Further, the equalization charge switches 12a to 12d.
Alternatively, when an instruction is given by the quick charging switches 13a and 13b, after the charging time set in each switch elapses,
Since the voltage output to the charging terminal 13 automatically shifts to the floating charging voltage, it is easy to manage the charging while maintaining the proper relationship between the charging voltage and the charging time as shown in FIG. It is possible to do.

Further, since the time display section 14 of the operation panel 1 can visually recognize the time until the completion of charging while the charging is being performed by the uniform charging switches 12a to 12d or the quick charging switches 13a and 13b, the uniform charging is performed. It is also possible to easily know the time until the charging method shifts to.

Further, the operation panel 1 has a plurality of charging instruction switches (a floating charging switch 11 and a uniform charging switch 12a).
~ 12d, quick charging switches 13a, 13b) are grouped and arranged for each charging method, so that each switch can be easily visually recognized for each charging method of floating charging, even charging, and rapid charging. Selection mistakes and operation mistakes are prevented.

Further, the equalizing switches 12a to 12d and the quick charging switches 13a and 13b have their respective output times set in advance. Therefore, the charging when the charging is performed by each charging method is performed. The time until completion can be visually recognized, and the charging method can be easily selected according to the time until completion of charging.

[0029]

According to the present invention, the following effects can be obtained.

(1) Control panel for arranging a plurality of charging instruction switches for instructing charging by floating charging method, uniform charging method and quick charging method, and control for controlling voltage output to charging terminal of storage battery And a charging instruction switch for floating charging, which gives an instruction to the control unit to output a preset floating charging voltage to the charging terminal of the storage battery, and a charging instruction switch for even charging. The switch gives an instruction to the control unit to output, to the charging terminal of the storage battery, the equalized charging voltage set in advance stepwise for each fixed charging time set in advance for each equalization voltage. The charging instruction switch for rapid charging is such that the control unit is provided with a preset rapid charging voltage for the charging terminal of the storage battery, which is preset for each rapid charging voltage. In the case of an instruction by the charging instruction switch for even charging or an instruction by the charging instruction switch for quick charging, the control unit gives an instruction to output the time, and the control unit outputs the output time instructed by each charging instruction switch. After the lapse of time, the charging terminal of the storage battery is controlled to output the floating charging voltage.
The operator operates the charging instruction switch corresponding to the desired charging method from the plurality of charging instruction switches arranged on the operation panel when performing the floating charging method, the uniform charging method, or the quick charging method for the storage battery. Can be charged with a constant charging voltage preset for each charging method for an appropriate charging time, and after even charging or rapid charging, it automatically shifts to floating charging. Even if operated, it becomes possible to easily perform charge management while maintaining the relationship between the appropriate charging voltage and the charging time.

(2) On the operation panel, a plurality of charge instruction switches are arranged in groups of a charge instruction switch for floating charging, a charge instruction switch for uniform charging, and a charge instruction switch for quick charging. By doing so, it becomes easier for each charging instruction switch to be visually recognized for each charging method of floating charging, uniform charging and quick charging, and it is possible to prevent selection mistakes and operation mistakes of each charging method.

(3) On the operation panel, the charging instruction switch for even charging and the charging instruction switch for rapid charging are each provided with the output time preset in each charging instruction switch. Since it is possible to visually recognize the time until the completion of charging when the charging is performed by each charging method, it is possible to easily select the charging method according to the time until the completion of charging.

(4) The operation panel is further provided with a time display section for displaying the remaining time of the voltage output by the control section, so that the time until the completion of charging can be set during the charging by the uniform charging or the quick charging. Since it can be visually recognized, it is possible to easily know the time until the charging method shifts to the uniform charging.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a charge control device according to an embodiment of the present invention.

FIG. 2 is a front view of an operation panel of the charging control device of FIG.

FIG. 3 is a diagram showing a relationship between a charging time of a storage battery and a charging voltage.

[Explanation of symbols]

1 Operation panel 2 control unit 3 charging terminals 4 power supply 11 Floating charge switch 12a, 12b, 12c, 12d Equal charging switch 13a, 13b Quick charge switch 14 hour display

Claims (3)

(57) [Claims] 1. An operation panel having a plurality of charging instruction switches for instructing charging by floating charging method, uniform charging method, and quick charging method, and a control section for controlling a voltage output to a charging terminal of a storage battery. And a charge instruction switch for floating charging, for giving the controller an instruction to output a preset floating charging voltage to a charging terminal of the storage battery, The charging instruction switch for outputting to the control unit the charging terminal of the storage battery the preset uniform charging voltage in advance for each uniform charging voltage for a predetermined time. The charging instruction switch for the rapid charging, the control unit, to the charging terminal of the storage battery, a rapid charging voltage preset in advance, each of the rapid charging voltage. The control unit gives an instruction to output the voltage for a certain period of time preset in advance, and the control unit gives an instruction by the charging instruction switch for the uniform charging or an instruction by the charging instruction switch for the quick charging. in the case of, after the output time indicated by the charge instructing switch, the charging terminal of the battery, Ri <br/> Oh in controls to output the floating charge voltage, the control panel Is a charge instruction switch for equalizing the charge.
And the charging instruction switch for quick charging described above.
The preset output time is recorded on the power indicator switch.
It is a charging control device. 2. The operation panel includes a group of the plurality of charge instruction switches for each of the charge instruction switch for the floating charge, the charge instruction switch for the uniform charge, and the charge instruction switch for the quick charge. The charging control device according to claim 1, wherein the charging control device is arranged in a converted form. 3. The control panel further comprises the control unit.
The charge control device according to claim 1, further comprising a time display unit that displays the remaining time of the voltage output .