JP3703071B2 - Battery charger - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a battery charging device for charging a battery in an electric vehicle such as a battery-type forklift, for example, and in particular, to improve an operation procedure when a time for charging is designated or confirmed in advance. It is related with the technique for aiming.
[0002]
[Prior art]
Conventional battery-type forklifts are provided with a battery charging device so that the battery can be charged using nighttime power or the like. Then, charging is performed by connecting the battery charging device to an external power supply device via a power cable.
[0003]
Furthermore, in the conventional battery-type forklift, when the charge amount of the battery becomes extremely small, in addition to starting charging immediately on the spot, the time to be charged is designated in advance and the designated Some have a so-called reserved charging function that automatically starts charging when time comes.
[0004]
In a conventional forklift with a reserved charging function, when the time (date and time) to be charged is specified by operating the reserved charging time setting switch, the designation is displayed on the display panel adjacent to the driver's seat. Since the reserved charging time is displayed, after confirming the contents, the reserved charging start switch is turned on. And if the battery charger is connected to the external power supply using the power cable in advance by the reserved time, the time for the reserved charge displayed on the display panel will be reached after the elapse of time. Charging starts automatically.
[0005]
After the end of charging, the reserved charging time setting switch is operated again to reset the time to be charged next time.
[0006]
[Problems to be solved by the invention]
As described above, in the conventional technology, when performing the reserved charging of the battery, every time the charging of the battery is completed, the reserved charging time setting switch is operated each time, and the charging is performed at what time of the month / month. It is necessary to re-specify whether or not to perform the operation. For this reason, the operation of changing the setting of the reserved charging time is complicated and takes time and effort.
[0007]
Also, if you forget to specify the next reserved charging time and turn on the reserved charging start switch while keeping the original reserved charging time, the original reserved charging time has already passed. Even when the power cable is connected to the charging device, there is a problem that charging does not start even after a long time.
[0008]
Furthermore, in the conventional system, when setting the reserved charging time or checking what time the reserved charging time was, the display panel can be reserved from the normal display mode that displays the operation status of the forklift. It was necessary to switch to the display mode for setting the charging time, which was troublesome.
[0009]
The present invention has been made to solve the above-described problems, and eliminates the trouble of setting the reserved charging time as much as possible to eliminate the conventional troublesomeness. Further, the reserved charging time can be reduced without switching the display mode. This makes it easy to check the settings.
[0010]
[Means for Solving the Problems]
In order to solve the above problems, the present invention provides a reserved charging time setting means for setting a new reserved charging time in a battery charging device for an electric vehicle, and a reserved charging time set by the reserved charging time setting means. An update time interval setting means for setting a time interval with a next reserved charge time which is a time after a predetermined time has elapsed from the reserved charge time as an update time interval, and a comparison operation between the current time and the reserved charge time, When the reserved charging time has elapsed, an automatic update means for automatically updating and setting the next reserved charging time after the update time interval is provided.
[0011]
Thus, once the reserved charging time and the update time interval are newly set by the reserved charging time setting means and the update time interval setting means, the reserved charging time is automatically updated by the automatic updating means thereafter. Therefore, it is possible to save the trouble of setting the reserved charging time as in the prior art as much as possible, and to eliminate the complexity.
[0012]
The battery charging device of the present invention is characterized by further comprising a reserved charging time display means for always displaying the reserved charging time when the display provided on the vehicle body is turned on.
[0013]
Thereby, even if it does not switch a display mode, it can confirm easily only by glances at the setting content of reservation charge time.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a perspective view showing the entirety of a battery-type forklift, FIG. 2 is an enlarged perspective view showing a driver seat portion of the forklift, and FIG. 3 is a battery according to an embodiment of the present invention provided in the battery-type forklift. It is a block diagram which shows the structure of a charging device.
[0015]
In FIG. 3, reference numeral 1 denotes the entire battery charger, 2 denotes a power cable for connecting the battery charger 1 to an external power supply (not shown), and 4 denotes a socket portion for connecting the power cable 2. is there. Further, 6 is an electromagnetic relay for turning on / off the power supply, 8 is a transformer, 10 is a battery, and 12 is a timer for measuring the current time.
[0016]
Reference numeral 14 denotes a charging progress display unit that displays changes in the charging state over time when charging of the battery 10 is started. Reference numeral 16 denotes a display panel constituted by an LCD or the like that displays various data. As shown in FIG. 3, the driver seat 40 is provided at a position close to the handle 41.
[0017]
As shown in FIGS. 4 and 5, the display panel 16 has a screen switching area A1 in which the display screen is switched by switching the display mode, and displays the reserved charging time and the current time individually. Dedicated display areas A2 and A3 are always secured.
[0018]
Reference numeral 18 denotes an operation unit for inputting various command signals by setting operation. The operation unit 18 includes a set value determination switch 181, a set value restoration switch 182, and set value change switches 183 and 184 that increase and decrease the set value, which are arranged in the vicinity of the display panel 16. A reserved charge start switch 185 and a charge stop switch 186 are provided.
[0019]
The set value confirmation switch 181 also serves as a mode changeover switch for switching from a display mode indicating the operation state of the forklift to a display mode for setting a reserved charging time. Further, the set value changing switches 183 and 184 function as switches for setting the reserved charging time when the display mode for setting the reserved charging time is set by operating the setting value determining switch 181. The reserved charge start switch 185 outputs a reservation charge start permission signal. When the switch 185 is in an ON state, the reserved charge start switch 185 has reached the reserved charge time set by the setting value changing switches 183 and 184. Automatically starts charging. The charge stop switch 186 forcibly stops the charging operation.
[0020]
20 is a controller composed of a microcomputer or the like. The controller 20 controls each of the above-described units 6, 14, 16, 18,... And when the reserved charging time set by the operation unit 18 has elapsed, the controller 20 The next reserved charging time is automatically updated based on the above.
[0021]
Next, in the battery charging device having the configuration of FIG. 3, an operation in the case where reserved charging is mainly performed and contents displayed on the display panel 16 along with this will be described.
[0022]
In a state before the reserved charging time is set, the display panel 16 has a remaining battery capacity meter 30, a speedometer 31, an operating time 32, a parking brake 33 in the screen switching area A1, as shown in FIG. An image showing the driving operation state of a forklift such as is displayed. In addition, in the reserved charging time display area A2, the date and time of the reserved charging time are displayed. In this example, the case where the reserved charging time is set to 10:00 on May 16 is shown. Further, in the current time display area A3, the current date, day, and time are displayed. This example shows that the current time is 10:20 am on Friday, May 15th.
[0023]
Further, when the set value changing switches 183 and 184 are operated from this state, as shown in FIG. 4B, the screen switching area A1 includes the battery remaining capacity meter 30, the travel distance 34, the travel time 35, the hydraulic pressure. A screen showing other driving operation states of the forklift such as the operation time 36 and the operation time 37 is displayed. However, even in that case, the display screens of the reserved charging time display area A2 and the current time display area A3 are not changed at all by the control of the controller 20.
[0024]
Next, when the set value decision switch 181 is operated from the state shown in FIG. 4A or 4B, the display mode for setting the reserved charging time is set. As shown in FIG. 5A, the screen switching area A1 is displayed. The screen switches to the reservation charging time setting screen. However, even in this case, the display screen of the display area A2 for the reserved charging time and the display area A3 for the current time is secured as it is under the control of the controller 20.
[0025]
In the display mode for setting the reserved charging time, “daily specifying mode” and “month / day specifying mode” can be selected as a method for specifying the reserved charging time.
[0026]
Here, “Daily Specified Mode” is used when performing scheduled charging every day. For example, when working on a weekday (Monday to Thursday), it is convenient to perform reserved charging for the next day. It is. In addition, the “Month / Day Designation Mode” is used when making a reservation charge on a specific month. For example, if you specify the date and time to perform a reservation charge on Sunday when you work on a weekend Friday, It is convenient because the forklift can be operated immediately from the Monday when I went to work.
[0027]
FIG. 6 shows a flowchart for setting the reserved charging time.
As described above, the set value confirmation switch 181 is operated to switch to the display mode for setting the reserved charging time, and the screen is switched to the reserved charging time setting screen as shown in FIG. 5A (step 61). Next, by operating the setting value changing switches 183 and 184, the “month / day designation mode” or “daily designation mode” is selected (step 62). Further, in the “month / day designation mode”, data of “month”, “day”, and “hour / minute” to be reserved are sequentially input (steps 63 to 65). In addition, when “daily designated mode” is selected, the data of the reserved charging time is automatically updated every day, so only the input of “hour and minute” data is performed (step 66). If the reserved charging time is designated, the set value determining switch 181 is operated to determine the reserved charging time (step 67). In response to the confirmation of the reserved charging time, the set reserved charging time is displayed in the display area A2, as will be described later. In addition, even in the “daily designation mode”, as in the “month / day designation mode”, data for designating “month” and “day” may be input in addition to “hour and minute”. .
[0028]
Here, the “month / day designation mode” is selected by operating the setting value changing switch 183, and subsequently, “month” and “day” for performing the reserved charging by operating the setting value changing switches 183 and 184. It is assumed that the set value confirmation switch 181 is operated after setting “hour and minute”.
[0029]
FIG. 7 shows a flowchart when the reserved charging time is displayed in the display area A2.
The controller 20 determines whether the display mode for setting the reserved charging time is “month / day designation mode” or “daily designation mode” (step 71), and reads the update time data corresponding to each mode (step 72, 73), the reserved charging time set by the flowchart shown in FIG. 6 is displayed in the display area A2 (step 74).
Here, since the “month / day designation mode” is selected, the screen shown in FIG. 5B is displayed. That is, in this example, at 10:31 am on Friday, May 15th, a screen in which 10 pm on Sunday, May 17th, is set as a new reserved charging time is displayed.
[0030]
Subsequently, the reserved charge start permission signal is given to the controller 20 by turning on the reserved charge start switch 185 of the operation unit 18. Further, when the power cable 2 is connected to the socket unit 4 before the reserved charging time (for example, Friday afternoon), a cable connection detection signal is output from the socket unit 4 to the controller 20. It is recognized that the cable 2 is connected to the battery charger 1.
[0031]
The controller 20 compares the current time measured by the timer 12 with the reserved charging time set by the setting value changing switches 183 and 184 of the operation unit 18, the two match, and the reserved charging start permission signal Is turned on, the electromagnetic relay 6 is turned on. Thereby, electric power is supplied from the power cable 2 to the battery 10 via the transformer 8, and charging is started. In this example, charging starts at 10 pm on Sunday, May 17, which is the reserved charging time.
[0032]
Then, when the above-described reserved charging time has elapsed, the controller 20 automatically updates the date and time when a predetermined number of days have elapsed based on that time as the next reserved charging time.
[0033]
FIG. 8 shows a specific flowchart for automatically updating the reserved charging time.
First, the controller 20 reads the current time data from the timer 12 (step 81), and further reads the data of the reserved charging time designated in the “month / day designation mode” (step 82). Subsequently, it is checked whether or not the reserved charging time designated in the “month / day designation mode” has already passed (step 83), and the reserved charging time designated in the “month / day designation mode”. If it has passed, the value for one week later is added to the current date and time to update the reserved charging time (step 84). In this example, at 10 pm on May 17 (Sunday), with regard to the month / day designation mode, 12:00 pm on Sunday, May 24th (Sunday) is automatically set as the reserved charging time. It will be reworked.
[0034]
In step 83, if the current time has not yet passed the reserved charging time designated in the “month / day designation mode”, the controller 20 stores the data of the reserved charging time designated in the “daily designation mode”. Read (step 85). Subsequently, it is checked whether or not the current charging time has already passed the reserved charging time designated in the “daily designated mode” (step 86), and the current time has passed the reserved charging time designated in the “daily designated mode”. If so, the reserved charging time is updated by adding the value for the next day to the current date and time (step 87). In this example, regarding the “daily designation mode”, the reservation charging time is automatically reset at 10 pm on Monday, May 18, the next day.
Therefore, as in the prior art, it is possible to save the trouble of operating the switch each time the reserved charging time elapses and redesignating the next reserved charging time each time.
[0035]
Furthermore, the controller 20 sequentially detects the voltage of the battery 10 from the charging start time and displays the amount of charge on the charging progress display unit 14 as time elapses. Then, when the charge amount of the battery 10 reaches a specified value, the controller 20 turns off the electromagnetic relay 6.
[0036]
If it is confirmed that the charge amount of the battery 10 has reached the specified value by looking at the charge amount displayed on the charge progress display portion 14, the power cable 2 will be removed from the socket portion 4, At that time, since a detection signal of cable disconnection is output from the socket unit 4 to the controller 20, the controller 20 recognizes that the power cable 2 has been disconnected from the battery charging device 1.
[0037]
FIG. 9 shows a flowchart for displaying the updated reserved charging time in the display area A2.
The controller 20 sequentially reads the updated times of the “month / day designation mode” and the “daily designation mode” updated in accordance with the flowchart shown in FIG. 8 (steps 91 and 92). Are output to the display panel 16 (step 93).
[0038]
For example, after the previous reserved charging time has elapsed (for example, at 11:00 pm on Sunday, May 17), the same reserved charging as that shown in FIG. If the display mode for setting the time is set, as shown in FIG. 5 (c), the screen switching area A1 includes the next automatically-reserved charging time (Sunday, May 24, 10:00 p.m. And May 18th (Monday, 10:00 pm) are displayed. Further, on this screen, when the “month / day designation mode” is selected by operating the setting value change switch 183, the reserved charge time display area A2 indicates the next automatically updated next charge charge time, May 24. Sunday (Sunday) 10pm is displayed.
[0039]
In the above embodiment, the update time interval is set to one week in the “month / day designation mode” and one day in the “daily designation mode”. However, the present invention is not limited to this. The “designation mode” can be set every two weeks, and the “daily designation mode” can be set every 23 hours. Furthermore, the update time interval is not fixed and can be arbitrarily variably set.
[0040]
【The invention's effect】
The present invention has the following effects.
[0041]
(1) In the battery charging apparatus of the present invention, once a reserved charging time is newly set by the reserved charging time setting means, thereafter, the reserved charging time is automatically updated by the automatic updating means. It is possible to save the trouble of setting the reserved charging time as in the conventional case as much as possible, and to eliminate the complexity of the setting operation.
[0042]
(2) In the battery charging device of the present invention, the display panel always has a dedicated display area for displaying the reserved charging time, so that the reservation can be made without switching the conventional display mode. It is convenient that you can easily check the settings of the charging time by simply looking at it.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an entire battery-type forklift.
FIG. 2 is an enlarged perspective view showing a driver seat portion of the forklift.
FIG. 3 is a block diagram showing a configuration of a battery charging device according to an embodiment of the present invention provided in a battery-type forklift.
FIG. 4 is an explanatory diagram showing an example of a display screen in a normal display mode indicating the operating state of the forklift.
FIG. 5 is an explanatory diagram showing an example of a display screen in a display mode for setting a reserved charging time for a forklift.
FIG. 6 is a flowchart for setting a reserved charging time.
FIG. 7 is a flowchart for displaying a reserved charging time.
FIG. 8 is a flowchart for updating a reserved charging time.
FIG. 9 is a flowchart for displaying an update time.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Battery charging device, 10 ... Battery, 16 ... Display panel, 18 ... Operation part, 183,184 ... Switch for setting value change (reserved charge time setting means), 185 ... Reserved charge start switch, 20 ... Controller (automatic update) Means), A1... Screen switching area, A2... Display area for reserved charging time, A3... Display area for current time.

Claims (1)

  In a battery charging device for an electric vehicle, a reserved charging time setting means for setting a new reserved charging time, a reserved charging time set by the reserved charging time setting means, and a time after a predetermined time has elapsed from the reserved charging time The update time interval setting means for setting the time interval with the next reserved charge time as an update time interval, the current time and the reserved charge time are compared and calculated, and when the reserved charge time has elapsed, the update time A battery charging device comprising: an automatic updating means for automatically updating and setting a next reserved charging time at an interval.

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