KR101281545B1 - Battery charging and recovery reproducing device performing automatic charging by detecting battery connection state of battery charger and recovery reproducing player and switching polarity automatically - Google Patents

Abstract

The present invention is to determine the normal connection, reverse connection, the open state by the program of the microcontroller that has a built-in connection state with the battery connected to the charge and restore player in the battery charging and restoration playback process of the battery charger and restoration player The battery charger protects the battery and the charging and restoration player by automatically switching the output polarity of the charging and restoring player according to the connection status so that the charging and restoration player always operates normally and completely cuts the output during abnormal operation. The present invention relates to a battery charging and restoring and reproducing apparatus for detecting and recharging a battery connection state of a restoration player and automatically switching polarity.
In detail, the present invention is caused by the inconvenience of having to check and connect the (+) and (-) terminals correctly when the user connects the battery or by inadvertently connecting the (+) and (-) terminals by the user's carelessness. The present invention relates to a device for compensating for a problem. The main control unit for controlling the battery charging and restoring / reproducing device is equipped with a microcontroller, and the power switch is operated by a digital control method controlled according to various input / output conditions by an internal control program. When the power is supplied to the internal circuit, the microcontroller in the main circuit section cuts off all the output circuits connected to the battery and checks the signal of the circuit for detecting the reverse connection connected to the battery to see if the current battery connection is properly connected. Or determine whether it is in reverse connection or fully open Control the switching elements of the output circuit to be connected in the forward direction, or control them to be connected in the reverse direction, or completely disconnect the switching elements in the open state. ) Make sure that the voltage is always connected to the (+) terminal of the battery and the (-) voltage is always connected to the (-) terminal of the battery so that the user has to check the (+) and (-) terminals of the battery. The present invention relates to a battery charging and restoring and reproducing apparatus that can prevent explosion or other problems caused by reverse connection.

Description

Battery charging and restoring device performing automatic charging by detecting battery connection state of battery charger and recovery reproducing player and switching polarity automatically}

The present invention relates to battery charging and restoring regeneration of a battery charging and restoring regenerator, and more particularly, battery charging and recharging by automatically detecting the battery connection state of the battery charger and the restoring regenerator and automatically switching polarity when connected incorrectly. A reproducing and reproducing apparatus is provided.

The conventional battery charging and restoring player is a system in which the charging and restoring player or the battery is burned out due to an incorrect connection with the battery, or when the battery is burned out. It is composed of a problem that the user should always pay attention to the polarity of the battery.

Specifically, check the (+) and (-) terminals of the battery when charging or restoring the battery, and connect the output cable of the charging and restoration player to the (+) terminal and the (-) terminal correctly. There is inconvenience and troublesome problem to operate.

In addition, when the surface of the battery to be recharged or restored is dirty or old and the (+) terminal and the (-) terminal cannot be identified, a separate measuring instrument is required to check or process, which is inconvenient and cumbersome. There was a problem.
That is, as a conventional invention having the above problems, for example, Utility Model Registration Publication No. 20-0193875 (August 16, 2000) or Utility Model Registration Publication No. 20-0284091 (August 31, 2002) is disclosed. It is.

The present invention has been made to solve the above problems of the prior art, and the normal connection, reverse connection, open state by the program of the microcontroller is built in the connection state with the battery connected to the charge and recovery player It automatically switches the output polarity of the charging and restoring player according to the connection status so that the charging and restoring player always operates in normal state and completely blocks the output during abnormal operation to protect the battery and the charging and restoring player. For the purpose of

In order to achieve the above object, the present invention is configured such that the microcontroller 11 mounted on the main controller 10 controls an output circuit associated with various input / output conditions and states by an internal control program.

A constant voltage unit 20 for supplying a stabilized DC voltage to the main control unit 10 so that the circuit can always operate stably; The SMPS unit 30 generates a charging voltage so that the battery charging and restoring and reproducing apparatus can supply the stabilized DC voltage and the current set by the charging current setting element 12 to the battery 110 under the control of the microcontroller 11. Wow; A power switch 41 for initiating and stopping the battery charging and restoring and reproducing apparatus, a charging switch 42 for generating a start signal of the charging function, a restoring and reproducing switch 43 for generating a start signal of the restoring playback function, and A switch input unit 40 for generating various signals for the battery charging and restoring and reproducing apparatus to start operation, including an automatic switch 44 for generating signals to sequentially operate the charging and restoring and reproducing functions; The voltage display element 51 indicating the charging voltage of the battery 110, the current display element 52 indicating the charging current of the battery 110, and the charge level display element 53 indicating the amount of charge charged in the battery 110. ), A restoration regeneration level display element 54 indicating a restoration regeneration amount when restoring and regenerating the battery 110, a power display element 55 indicating a power switch operation, and a charging display element 56 indicating charging. And a display element unit 50 indicating an operation state of the battery charging and restoring and reproducing apparatus, including a restoring and reproducing display element 57 indicating restoring and reproducing, and an automatic state display element 58 indicating being in automatic operation. ; The forward switching output element 61 which operates to connect the battery charging and restoring regeneration device and the battery 110 in the forward direction, and the reverse switching output element which operates so that the battery charging and restoring regeneration device and the battery 110 are connected in the reverse direction. 62 and an output / reverse control unit 60 which performs an operation of connecting and disconnecting the battery 110 with the battery charging and restoring and reproducing apparatus, which includes a main switching element 63 for disconnecting a circuit connected to the battery 110. )Wow; Charging mode switching output element 71 for connecting and blocking charging voltage and current to the battery 110 when selecting the charging mode, and restoring regeneration mode switching for connecting and blocking the restoring regeneration pulse to the battery 110 when selecting the restoring regeneration mode. An output mode control unit 70 including an output element 72 for controlling a circuit of the output unit in accordance with the selection of the charging or restoring regeneration mode; Forward detection element 81 for detecting the forward connection state of the battery 110, reverse detection element 82 for detecting the reverse connection state of the battery 110, and forward connection state display element 83 indicating the forward connection state And a reverse connection state display element 84 indicating a reverse connection state, a forward switching output element 61, a reverse switching output element 62, a charging mode switching output element 71, and a recovery regeneration mode switching output element 72. ), The state of the battery 110 as a key component of the battery charging and restoring and reproducing apparatus, including a detection sensor ON / OFF element 85 that receives the states of the forward detection element 81 and the reverse detection element 82. A battery connection state detection and display element unit 80 which detects and transfers the detected signal to the microcontroller 11; A restoration regeneration pulse generator 90 generating a restoration regeneration pulse in the battery 110 when the restoration regeneration mode is selected; The technical feature of the device is characterized in that the buzzer (100) configured to notify the warning sound so that the user can recognize the abnormal state or abnormal state.

In the device according to the present invention, when charging or restoring the battery, the user always connects the (+) terminal and the (-) terminal of the battery when the (+) output terminal and the (-) output terminal of the charger or the restoration player are connected to the battery. Improves the inconvenience of having to check accurately and operate the charger or regenerator, and sometimes even when the battery's positive and negative terminals cannot be identified due to long use or contamination of the battery's surface No need to check the terminal using a separate instrument. Connect the battery to the battery charging and restoration device and input the charging or restoration playback or automatic switch. The microcontroller inside the battery charging and restoration playback device analyzes various input states. Charging and restoring the battery to automatically match the polarity of the battery When you connect the terminals of the battery has the effect that there is no need to determine the polarity of the terminals.

It also protects the battery and charging and restoring player by completely shutting off the output during abnormal operation.

1 is a block diagram showing an outline configuration of a battery charging and restoring and reproducing apparatus.
2 is an internal block diagram illustrating a connection state of a battery charging and restoring apparatus and a battery.
3 is an internal circuit diagram for polarity detection and automatic operation of a battery charging and restoring apparatus.
4A and 4B are flowcharts of portions for determining the line polarity between the battery charging and restoring apparatus and the battery and automatically switching the polarity.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT An embodiment of a device for detecting a battery connection state of a battery charger and a regenerator according to the present invention and automatically switching the polarity to charge is described in detail with reference to the drawings. Configurations shown in the embodiments and drawings described herein are only one of the most preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention, various equivalents that may be substituted for them at the time of the present application And variations.

1 is a block illustrating a schematic configuration of a battery charging and restoring and reproducing apparatus, FIG. 2 is an internal block illustrating a connection state of a battery charging and restoring and reproducing apparatus, and FIG. 3 is a polarity detection of the battery charging and restoring and reproducing apparatus. And an internal circuit diagram required for automatic operation, and FIGS. 4A and 4B are flowcharts of portions for determining the line polarity between the battery charging and restoring and reproducing apparatus and for automatically switching the polarity.

As shown in FIGS. 1 and 2, in the battery charging and restoring and reproducing apparatus, the microcontroller 11 mounted on the main controller 10 controls an output circuit related to various input / output conditions and states by an internal control program. It is supposed to.

The battery charging and restoring and reproducing apparatus according to the present invention includes a main controller (10) for the microcontroller (11) to control an output circuit associated with various input / output conditions and states by an internal control program;

An output station control unit 60 which performs an operation of connecting and disconnecting the charging and restoring reproducing apparatus and the battery 110;

An output mode control unit 70 for controlling a circuit of the output unit in accordance with the selection of the charging or restoring regeneration mode;

A battery connection state detection and display element unit 80 which detects a state of the battery 110 and transmits the detected signal to the microcontroller 11;

The recovery regeneration pulse generator 90 generates a regeneration regeneration pulse in the battery 110 when the regeneration regeneration mode is selected. In addition, the main control unit 10 further comprises a buzzer 100 for notifying a warning sound so that the user can recognize a non-normal state or an abnormal state by sound.

In detail, the main controller 10 includes a constant voltage unit 20 for supplying a stabilized DC voltage so that the circuit can always operate stably, and the charging and restoring regenerator is controlled by the microcontroller 11. The SMPS unit 30 generates a charging voltage to supply the stabilized DC voltage and the current set by the charging current setting element 12 to the battery 110, and starts and stops the battery charging and restoring and reproducing apparatus. Informing power switch 41, the charging switch 42 for generating the start signal of the charging function, the restoration regeneration switch 43 for generating the start signal of the restoration playback function, and the charging and restoration playback function to operate sequentially It is composed of an automatic switch 44 for generating a signal includes a switch input unit 40 for generating a variety of signals so that the battery charging and restoring regeneration device can start operation, the batter A voltage display element 51 indicating the charging voltage of the battery 110, a current display element 52 indicating the charging current of the battery 110 and a charge level display element 53 indicating the charging amount of the battery 110; When the battery 110 is restored and regenerated, a restoration regeneration level display element 54 indicating a restoration reproduction amount, a power display element 55 indicating a power switch operation, a charging display element 56 indicating charging, and a restoration And a display element section (50) indicating an operating state of the battery charging and restoring and reproducing apparatus, which is composed of a restoration reproducing display element (57) indicating that reproduction is being performed, and an automatic state display element (58) indicating an automatic operation. When the recovery mode is selected, the battery 110 is configured to include a recovery regeneration pulse generating unit 90 to generate a recovery regeneration pulse, and informs a warning sound so that the user can recognize the abnormal state or abnormal state by sound.A low 100 is further configured to.

Next, the forward and reverse control unit 60, which performs the operation of connecting and disconnecting the battery charging and restoring and reproducing apparatus and the battery 110, the forward switching operating to connect the battery charging and restoring and reproducing apparatus and the battery 110 in the forward direction. The output element 61, the reverse switching output element 62 which operates to connect the battery charging and restoring apparatus and the battery 110 in the reverse direction, and the main switching element 63 which cuts off the circuit connected to the battery 110. It consists of).

Next, the output mode control unit 70 for controlling the circuit of the output unit in accordance with the selection of the charging or restoring regeneration mode, the charging mode switching output element 71 for connecting and disconnecting the charging voltage and current to the battery 110 when the charging mode is selected. And a regeneration regeneration mode switching output element 72 for connecting and disconnecting a regeneration regeneration pulse to the battery 110 when the regeneration regeneration mode is selected.

Next, the battery connection state detection and display device unit 80 which detects the state of the battery 110 and transmits the detected signal to the microcontroller 11 as a key component of the battery charging and restoring and reproducing apparatus is the battery 110. Forward detection element 81 for detecting the forward connection state of the (), reverse detection element 82 for detecting the reverse connection state of the battery 110, forward connection state display element 83 indicating the forward connection state, and the reverse Reverse connection state display element 84 indicating the connection state, forward switching output element 61, reverse switching output element 62, charging mode switching output element 71, restoring regeneration mode switching output element 72, forward direction The detection element 81 and the detection sensor ON / OFF element 85 which receive the state of the reverse direction detection element 82 are comprised.

Hereinafter, the battery charging and restoring and reproducing apparatus will be described in more detail.

The microcontroller 11 is mounted on the main controller 10 and is a key component that integrates and controls the battery charging and restoring and reproducing apparatus according to an internal program for the battery charging and restoring and reproducing apparatus to operate normally. Algorithm is programmed to control precisely.

The microcontroller 11 constantly checks the input of the power switch 41 in the switch input unit 40 to determine whether the battery charging and restoring apparatus is in operation or stop mode, and thus the operation and stopping of the battery charging and restoring apparatus is performed. To control. The power switch 41 is a flip-flop type capable of repeating the selection of the operation and the stop mode. The microcontroller 11 has the charging mode switching output element 71 in the output mode controller 70 when the operation mode is selected and started. And the main switching device 63 in the output / reverse control unit 60 executing the connection mode and disconnection function of the recovery mode switching output device 72 and the battery 110 and the battery charging and restoring regeneration device and the battery 110. It is controlled to block the operation on the circuit line to completely block the to protect the battery charging and recovery and regeneration device and battery 110.

Next, the microcontroller 11 displays the voltage display element 51, the current display element 52, the charge level display element 53, the restored reproduction level display element 54, and the power display in the display element section 50. The display state of the element 55, the charging display element 56, the reproducing and reproducing display element 57, and the automatic state display element 58 is controlled to be displayed on the circuit line in an initialization state.

Next, the microcontroller 11 receives the detection signals of the forward detection device 81 and the reverse detection sensor 82 of the battery connection state detection and display device unit 80 and the battery recharging and restoration regeneration device and the battery 110. Logically determine the connection status with).

Specifically, the logical determination of the connection state is that the forward detection device 81 is non-conductive, the reverse detection device 82 is non-conductive, or the forward detection device 81 is conductive, and the reverse detection device 82 is non-conductive. It is determined whether the forward detection element 81 is in a non-conductive state, the reverse direction detection element 82 is in a conductive state, or the forward detection element 81 is a conductive state, and the reverse direction detection element 82 is in a conductive state.

When the forward detection device 81 is in a non-conduction state and the reverse detection device 82 is in a non-conduction state, the microcontroller 11 is abnormally connected to the battery charging and restoring / reproducing device and the battery 100 (circuitarily Open state) or part of the line is damaged and judged to be in an electrically non-conductive state, and thus the voltage display element 51, the current display element 52, the charge level display element 53, and the restoration in the display element section 50 are restored. The regeneration display device 54 lights up or flashes in a predetermined form, or operates the buzzer 100 mounted on the main control unit 10 to allow a user to combine the battery charging and restoring regeneration device with the battery 110. Control to recognize that it is abnormal.

When the forward detection element 81 is in the conduction state and the reverse detection element 82 is in the non-conduction state, the microcontroller 11 has a positive output terminal of the battery charging and restoring / reproducing apparatus. At the terminal, it is determined that the negative output terminal of the battery charging and restoring / reproducing apparatus is connected to the negative terminal of the battery 110 in the forward direction, thereby operating the forward switching element 61 in the output region control unit 60. Then, the main switching device 63 is operated to control the battery charging and restoring and reproducing apparatus and the battery 110 to be connected to the circuit to switch to the preparation step for executing the charging or restoring and regenerating mode.

When the forward detecting device 81 is in a non-conductive state and the reverse detecting device 82 is in a conductive state, the microcontroller 11 has a positive output terminal of the battery charging and restoring / reproducing apparatus. At the terminal, it is determined that the negative output terminal of the battery charging and restoring / reproducing apparatus is connected to the positive terminal of the battery 110 in the reverse direction to operate the reverse switching element 62 in the output region control unit 60. Then, the main switching device 63 is operated to control the battery charging and restoring and reproducing apparatus and the battery 110 to be connected to the circuit to switch to the preparation step for executing the charging or restoring and regenerating mode.

If the forward detection element 81 is in the conduction state and the reverse direction detection element is in the conduction state, the microcontroller 11 performs the forward detection element 81 or the reverse detection element 82 of the battery charging and restoring / reproducing apparatus. The voltage display element 51, the current display element 52, the charge level display element 53, and the regenerating and reproducing display element 54 in the display element section 50 are judged to be burnt out or abnormally shorted. By lighting or flashing in the form or controlling the operation of the buzzer 100 mounted on the main control unit 10 to allow the user to recognize that the battery charging and restoration regeneration device is abnormally coupled to the battery or abnormalities of parts. Make the state aware.

Next, the microcontroller 11 turns on the forward state display element 83 or the reverse state display element 84 suitable for the connected state in a preparation step capable of executing the charging or restoring regeneration mode in the forward or reverse connection state. After the microcontroller 11 stores the current connection mode (forward connection mode or reverse connection mode), the charging switch 42, the restoration regeneration switch 43, or the automatic switch 44 of the switch input unit 40 is stored. Control to maintain standby mode waiting for input.

Next, the signal of the charge switch 42 of the switch input unit 40 input to the microcontroller 11, the signal of the recovery and regeneration switch 43 and the signal of the auto switch 44 are maintained in the standby mode state. The control operation for each case is described.

When the signal of the charging switch 42 in the switch input unit 40 is input, the microcontroller 11 turns on the charging display element 56 in the display element unit 50 to output the standby mode to the charging mode and outputs the same. The charging mode switching output element 71 in the mode control unit 70 is operated to allow the battery charging and restoring and reproducing apparatus and the battery 110 to be connected in a circuit to start charging, and the microcontroller 11 detects at the same time. Activates the sensor ON / OFF element 85 and receives the state of the forward detection element 81 and the reverse direction detection element 82 and compares it with the connection mode (forward connection mode or reverse connection mode) previously stored in the standby mode state. If it is determined that the same state is maintained, if the same state is maintained, the charging mode state is maintained continuously. The microcontroller 11 operates the forward switching output element 61 or the reverse switching output element 62 because it is determined that there is an error in the connection of the forward switching output element 61 or the reverse switching output element 62. To control the operation of the buzzer 100 mounted therein while blocking the flashing display device 56 in the display device unit 50 so that the user can recognize the abnormal state of the charging mode to charge the battery. And check whether there is an abnormality in the restoration / playback apparatus.

If the signal of the restoration regeneration switch 43 in the switch input unit 40 is input, the microcontroller 11 restores the reproduction regeneration display element in the display element unit 50 to switch the standby mode to the restoration regeneration mode. 57) and the restoration regeneration mode switching output device 72 in the output mode control unit 70 is operated to connect the battery charging and restoration restoration device and the battery 110 in a circuit to start restoration restoration, and the micro At the same time, the controller 11 activates the detection sensor ON / OFF element 85 to receive the states of the forward detection sensor 81 and the reverse detection element 82, and the connection mode previously stored in the standby mode (forward connection). Mode or reverse connection mode), it is determined whether the same state is maintained. The microcontroller 11 determines that there is an error in the connection between the forward switching output element 61 and the reverse switching output element 62 in the output region control section 60 in an abnormally connected state. B) the operation of the buzzer 100 mounted therein is controlled by interrupting the operation of the reverse switching output element 62 and flashing the regenerating and reproducing display element 57 in the display element unit 50. The user may recognize the abnormal state so as to check whether there is an abnormality in the battery charging and restoring and reproducing apparatus.

Then, if the signal of the automatic switch 44 in the switch input unit 40 is input, the microcontroller 11 is the automatic operation display element 58 in the display element unit 50 to switch the standby mode to the automatic mode. Lights up and sequentially executes the regeneration / regeneration mode and the charging mode, and receives the signals from the detection sensor ON / OFF device 85, the forward detection device 81, and the reverse detection device 82 in this control process. The connection state and abnormal connection state are judged, and if the normal connection state, the current restoring regeneration mode and charging mode continue. If the abnormal connection state, the operation of controlling the user to recognize the abnormal state in the above-described charging mode and the restoration playback mode, the blocking of the output element and the blinking and buzzer of the corresponding display element in each abnormal connection state (100) ) Is the same as the operation.

Therefore, the battery charging and restoring and reproducing apparatus malfunctions (internal disconnection or short circuit) of the forward switching output element 61 and the reverse switching output element 62 in the output region control unit 60 operated by the command of the microcontroller 11. ) When the detection sensor ON / OFF device 85, the forward detection device 81 and the reverse detection device 82 are inputted, and constantly monitors the line between the battery charging and restoring / reproducing device and the battery 110. Unexpected abnormal conditions are generated so that the battery charging and restoring and regeneration device or the battery 110 is programmed to not be burned.

Next, FIG. 3 is a diagram showing an internal circuit diagram for polarity detection and automatic operation of the battery charging and restoring and reproducing apparatus.

As shown in FIG. 3, the input / output ports of the microcontroller 11 in the main controller 10, the positive and negative terminals of the battery 110, the main switching element 63, and A forward detection element 81 for detecting a battery connection state and a forward connection state of the battery 110 in the display element unit 80, and a reverse detection element 82 for detecting a reverse connection state of the battery 110; Detection to receive the states of the forward connection state display element 83 indicating the forward connection state, the reverse connection state display element 84 indicating the reverse connection state, the forward detection element 81, and the reverse detection element 82; The circuit configuration and connection state of the sensor ON / OFF element 85 are shown.

The forward detection element 81, the reverse detection element 82, the forward connection state display element 83, the reverse connection state display element 84, and the detection sensor ON / OFF element 85 are formed by using an optical element or a relay. It is preferable to make contactless.

Next, FIGS. 4A and 4B are flowcharts of portions for determining the line polarity between the battery charging and restoring apparatus and the battery and automatically switching the polarity.

As shown in Figure 4a and 4b, the flowchart is a program start step (S100), forward mode step (S200), reverse mode step (S300), error mode routine step (S400), switch input routine step (S500) ), The charging mode progression step (S600), the restoration playback mode progression step (S700) and the automatic mode progression step (S800).

More specifically, when the program start step (S100) is started, the various registers and memory initialization step (S101) for sequentially initializing the various registers and memory of the microcontroller, the step of output element blocking and display element initialization (S102). In step S103, the step of waiting for the power switch to be turned on is performed, and if the power switch is turned on, operating the detection sensor ON / OFF device (S104) and detecting the forward / reverse device state ( In step S105), if the forward direction element is forward OFF or reverse OFF, the process moves to the error mode routine step S400, and if it is not forward OFF or reverse OFF, checking whether it is forward ON or reverse OFF (S107). If the forward ON, reverse OFF, go to the forward mode step (S200), if the forward ON, if the reverse OFF if the step is positive OFF, reverse ON (S1) 08), if the forward OFF, reverse ON, go to the reverse mode step (S300), and if the forward OFF, reverse ON is not moved to the error mode routine (S400) for error processing.

In the error mode routine (S400), the standby sensor mode is passed through the step of blocking the detection sensor ON / OFF device (S401), the step of flashing the forward / reverse state display device (S402), and the operation of the internal buzzer sound (S403). The conversion and maintenance step (S404) is executed.

Subsequently, in the forward mode step (S200), the main switch device is executed after sequentially executing the forward switching device (S201), operating the forward display device (S202), and setting the forward mode memory (S203). After moving to the step (S304) to turn on the switch input routine (S500).

In the reverse mode step (S300), the main switch device is turned on after executing the reverse switching device (S301), operating the reverse display device (S302), and setting the reverse mode memory (S303) sequentially. After moving to step S304 to move to the switch input routine step (S500).

The switch input routine step (S500) is a routine for checking whether the charging switch, the restoration regeneration switch, and the automatic switch are turned on. If the charging switch is turned on, the charging mode proceeds if the charging switch is turned on. Moving to step S600, if the restoration playback switch is ON, go to restoration playback mode progression step (S700), if the automatic switch is ON, go to the automatic mode progression step (S800). If any one of the charging switch, the restoration regeneration switch, and the automatic switch is not ON, the switch input routine step continues until any one of the charging switch, the restoration regeneration switch, and the automatic switch is turned on (S500). Will be checked repeatedly.

As described above, although the present invention has been described by means of a limited embodiment and drawings, the present invention is not limited thereto, and the technical spirit of the present invention will be described below by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalent claims.

10: main control unit
11 microcontroller 12 charging current setting element
20: constant voltage unit 30: SMPS unit
40: switch input unit
41: power switch 42: charging switch
43: restore playback switch 44: automatic switch
50: display element
51: voltage display element 52: current display element
53 charge level display device 54 recovery regeneration level display device
55 power display device 56 charge display device
57: restoration playback display device 58: automatic operation display device
60: output station control unit
61: forward switching output element 62: reverse switching output element
63: main switching element
70: output mode control unit
71: charging mode switching output device 72: restoring regeneration mode switching output device
80: battery connection state detection and display element
81: forward detection element 82: reverse direction detection element
83: forward connection state display element 84: reverse connection state display element
85: Detection sensor ON / OFF device
90: recovery regeneration pulse generator
100: buzzer
110: battery

Claims (4)

A main controller 10 for the microcontroller 11 to control the associated output circuit according to various input / output conditions and states by an internal control program;
An output station control unit 60 which performs an operation of connecting and disconnecting the battery 110;
An output mode controller 70 for controlling a circuit of the output unit in accordance with the selection of the charging or restoring regeneration mode;
A battery connection state detection and display element unit 80 which detects a state of the battery 110 and transmits the detected signal to the microcontroller 11;
When the recovery regeneration mode is selected is composed of a recovery regeneration pulse generating unit 90 for generating a recovery regeneration pulse in the battery 110,
The display element unit 80,
A forward detection element 81 for detecting a forward connection state of the battery 110;
A reverse direction detection element 82 for detecting a reverse connection state of the battery 110;
A forward connection state display element 83 indicating a forward connection state;
A reverse connection state display element 84 indicating a reverse connection state;
State of forward switching output element 61, reverse switching output element 62, charging mode switching output element 71, restoring regeneration mode switching output element 72, forward detection element 81, reverse direction detection element 82 It detects the battery connection status and automatically switches the polarity, characterized in that it comprises a detection sensor ON / OFF element 85 that receives the input to automatically charge Battery charge and restore playback device. delete The method of claim 1,
The forward detection device 81, the reverse detection device 82, the forward connection state display element 83, the reverse connection state display element 84, and the detection sensor ON / OFF element 85 may be formed using an optical element or a relay. Battery connection status detection, characterized in that the non-contact and automatically switching the polarity to automatically charge Battery and restore playback device. delete

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