KR101039280B1 - Battery charging device for plug-in type motor driving apparatus - Google Patents

Abstract

The present invention relates to a battery charging device for a plug-in type electric machine, according to the present invention, by displaying the amount of power measured through the power measuring unit, or by transmitting to the external communication network through the communication unit, the user can easily facilitate the amount of power used for charging Disclosed techniques are disclosed.

In addition, by comparing the charges collected by the charge collection unit with the power charges calculated by the power amount measuring unit and the charge calculation unit to selectively cut off the power, a technique for achieving a charge of the battery charging device is disclosed.

Plug-in, hybrid, electric, battery, charging

Description

Battery charging device for plug-in type electric equipment {Battery charging device for plug-in type motor driving apparatus}

The present invention relates to a battery charging device for a power tool of the plug-in type.

In general, a plug-in hybrid vehicle refers to a vehicle in which an engine and a motor operate as a power source and have a battery charged by an external power source to drive the motor.

A technique for charging a battery applied to a plug-in hybrid vehicle by an external power source is known from Japanese Patent Laid-Open No. 2008-195315.

Referring to FIG. 1, the plug-in hybrid vehicle 10 includes an engine 11 as an internal combustion engine as a power source and a motor 12 as another power source.

The engine 11 is operated in accordance with the combustion of gasoline using gasoline or the like as fuel.

The motor 12 is connected to the battery 13 and operated using electric power charged in the battery 13.

The output shafts of the engine 11 and the motor 12 are connected to the power split mechanism 16, and the outputs of the engine 11 and the motor 12 use the power split mechanism 16 and the transmission 17. Is transmitted to the driving wheel 18.

The operation of the engine 11, the motor 12, and the power split mechanism 16 described above are controlled by the ECU 19.

On the other hand, the motor 12 is operated by the power charged in the battery 13, the battery 13 is charged with the power supplied from the external power source 20. At this time, the ECU 19 controls the operation of charging the battery 13 from the external power source 20 according to the voltage, current, temperature conditions of the battery 13.

However, the cited technology is to control the supply of the external power source 20 when the battery 13 is charged through the ECU 19 mounted on the vehicle, and does not control the supply of the external power source 20 from the outside of the vehicle. There is a problem.

SUMMARY OF THE INVENTION An object of the present invention is to provide a battery charging device for a plug-in type electric apparatus that is installed outside an electric apparatus such as a vehicle and can control the supply of external power.

In order to achieve the above object, a plug-in type battery charger for a power tool according to the present invention includes a charging outlet connected to a charging plug on a battery side; An external power input unit to which external power is input; A voltage line connecting between the external power input unit and the charging outlet; And a power amount measuring unit measuring an amount of power charged to the battery through the voltage line. Characterized in that it comprises a.

In addition, the control unit for displaying the amount of power measured by the power measuring unit through a display unit; Characterized in that further provided.

In addition, the communication unit for communicating with the external communication network; And a control unit for transmitting the amount of power measured by the power amount measuring unit to the external communication network through the communication unit. It characterized in that it further comprises.

The apparatus may further include an earth leakage circuit breaker that cuts off power supplied to the battery when an overvoltage is applied to the external power input unit.

The apparatus may further include an LED unit configured to detect a flow of current passing through the charging outlet, and to display a charging state of the battery according to the detected current flow.

In addition, toll collection unit for collecting user charges; A rate calculator for converting the amount of power measured by the amount of electricity measurement unit into an electricity rate; A power supply opening / closing unit selectively blocking power supplied to the battery; And a control unit for controlling the power supply opening and closing unit by comparing the amount collected by the charge collection unit with the electric charge calculated by the charge calculating unit. It characterized in that it further comprises.

The apparatus may further include a communication unit for communicating with an external communication network, wherein the controller is configured to communicate with an external communication network through the communication unit based on the information input to the toll collection unit so that a fee is settled.

In addition, the toll collection unit is characterized in that it is provided in at least one of a cash storage method, a contact card reader method and a contactless card reader method.

The display unit may include a touch screen and receive operation information through the touch screen.

As described above, the plug-in type battery charger for an electric appliance according to the present invention displays an amount of power measured through an electric power measuring unit or transmits it to an external communication network through a communication unit, so that the user can easily grasp the amount of electric power used for charging. It can be effective.

In addition, by comparing the charges collected by the charge collection unit with the power charges calculated by the power amount measurement unit and the charge calculation unit to selectively cut off the power, the charging of the battery charging device can be achieved.

In addition, the control unit has an effect that the payment of the rechargeable transportation card or credit card can be easily achieved by communicating with an external communication network through the communication unit and paying the fee based on the information input to the toll collection unit.

In addition, when an overvoltage is applied to the external power input unit, the power supply to the battery is cut off through the circuit breaker, thereby preventing the battery charger from being damaged by a short circuit.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings, description of overlapping description or obvious matters will be omitted or compressed as possible.

Figure 2 is a block diagram showing a battery charging device for a free-type plug-in powertrain according to a first embodiment of the present invention.

Referring to FIG. 2, the battery charger device 210 of the free-type plug-in power tool according to the first embodiment of the present invention includes an external power input unit 211, a charging outlet 212, and a ground fault interruption device. The unit 213, an LED unit 214, a display unit 215, an electric power measuring unit 216, a control unit 217, and a communication unit 218 are configured.

The external power input unit 211 is connected to the external power source AC, and the AC power applied to the external power input unit 211 flows to the charging outlet 212 through the voltage line 219.

Here, the voltage line 219 is preferably provided with a conductive metal cable coated with an insulator, and performs a function of electrically connecting the external power input unit 211 and the charging outlet 212.

The charging outlet 212 is connected to the charging plug 231 of the electric mechanism 230. Here, the electric mechanism 230 includes a battery 232 electrically connected to the charging plug 231, a motor 233 driven by the power of the battery 232, and an engine driven by fuel such as gasoline. 234, the motor 233 and the engine 234 are controlled by the electronic controller 235.

The charging outlet 212 applied to the present invention may be implemented using an outlet generally used as a home power source, and the charging plug 231 may be implemented using a general plug applied to household appliances. .

The earth leakage blocking unit 213 is installed on the voltage line 219, and when an overvoltage is applied to the external power input unit 211, serves to cut off a current flowing to the battery 232 along the voltage line 219. .

The LED unit 214 senses the flow of current passing through the charging outlet 212, and displays the state of charge of the battery 232 according to the detected current flow.

For example, when the battery 232 is being charged, the LED element of the LED unit 214 emits red color, and when the charging of the battery 232 is completed, the LED element emits green color.

The display unit 215 may be provided in the form of an LCD monitor or the like, and displays guide text and the like.

The power amount measuring unit 216 measures the amount of power charged by the battery 232 of the power mechanism 230 through the voltage line 219.

The controller 217 instructs the display 215 to display the amount of power measured by the amount of electricity measuring unit 216.

In addition, the controller 217 transmits the amount of power measured by the power amount measuring unit 216 to the external communication network using the communication unit 218 for communicating with the external communication network.

Here, a rectifier 220 is installed between the controller 217 and the voltage line 219, and the rectifier 220 has a function of converting AC power into DC power for driving the controller 217.

3 is a block diagram illustrating a battery charging device for a pay-plug type plug-in powertrain according to a second embodiment of the present invention.

Referring to FIG. 3, the charge-type plug-in type electric vehicle battery charger 310 according to the present embodiment includes an external power input unit 311 connected to an external power source AC and a charging outlet 312. And a ground fault interrupting unit 313, an LED unit 314, an electric power measuring unit 315, a charge calculator 316, a power supply opening and closing unit 317, a charge collector 318, and a controller ( 319, a communication unit 320, and a display unit 321.

Since the configuration of the external power input unit 311, the charging outlet 312, the ground fault interrupting unit 313, and the LED unit 314 of this embodiment is substantially the same as that of the first embodiment, the detailed description thereof Omit.

AC power applied to the external power input unit 311 flows to the charging outlet 312 through the voltage line 322.

The power amount measurer 315 measures the amount of power charged by the battery 332 of the power mechanism 330 through the voltage line 322. Here, the electric mechanism 330 is connected to the battery 332, the charging plug 331 is electrically connected to the charging outlet 312, the motor 333 driven by the power of the battery 332, An engine 334 driven by fuel such as gasoline is provided, and the motor 333 and the engine 334 are controlled by the electronic controller 335.

The rate calculator 316 converts the amount of power measured by the amount of electricity measurement unit 315 into an electricity rate.

The power supply opening and closing unit 317 is installed on the voltage line 322 to selectively cut off the power supplied to the battery 332.

The toll collection unit 318 is for collecting charges and can store cash such as bills and coins. In addition, the charge collector 318 may collect charges through payment of a rechargeable transportation card, a mobile phone, a credit card, etc. In this case, the controller 319 is a rechargeable transportation card, a mobile phone inputted to the charge collector 318. On the basis of the information, such as credit card, the communication unit 320 communicates with the external communication network so that the fee is settled.

The controller 319 controls the operation of the power supply opening and closing unit 317 by comparing the amount collected by the charge collector 318 with the power charge calculated by the charge calculator 316.

That is, when the amount is collected through the charge collector 318, the controller 319 opens the power supply switch 317 to supply power to the battery 332, and the power charge calculated by the charge calculator 316 is charged. When the amount reached by the collection unit 318 is reached, the power supply opening and closing unit 317 is closed to cut off the power supplied to the battery 332.

In addition, the controller 319 may transmit the amount of power measured by the amount of electricity measuring unit 315 or the power rate calculated by the rate calculator 316 to the external communication network through the communication unit 320.

Here, the rectifier 323 is installed between the controller 319 and the voltage line 322, the rectifier 323 serves to convert the AC power into DC power for driving the controller 319.

The display unit 321 may include the amount of money collected through the toll collection unit 318, the amount of power measured by the amount of electricity measurement unit 315, the power rate calculated by the rate calculator 316, the amount of power per unit time, and the rate of electricity. The calculation method, the charging time, and the like are displayed.

Figure 4 is a perspective view showing a battery charging device for a power-type plug-in power tool according to a second embodiment of the present invention.

Referring to FIG. 4, the display unit 321 is provided on one side of the front side of the battery charger 310, and the toll collection unit 318 is provided on the other side of the front side.

The display unit 321 includes a touch screen 321a and receives operation information through the touch screen 321a. Here, the operation information may be a charging time, a charging fee, and the like.

The toll collection unit 318 may use a cash receiver 318a for storing coins or bills, a contact card reader 318b for paying a credit card, and the like, and a payment using a rechargeable transportation card or a mobile phone. Is provided as a contactless reader 318c for.

In addition, a print issuer 324 is provided below the touch screen 321a for issuing a receipt in which the payment details are printed.

The battery chargers 210 and 310 according to the present invention may be applied to a plug-in hybrid vehicle, a plug-in hybrid motorcycle, a plug-in hybrid bicycle, and the like, in addition to an electric vehicle, an electric motorcycle having a battery charged through a plug, It can also be applied to electric bicycles.

As described above, the detailed description of the present invention has been made by the embodiments with reference to the accompanying drawings. However, since the above-described embodiments have only been described with reference to preferred examples of the present invention, the present invention is limited to the above embodiments. It is not to be understood that the scope of the invention should be understood by the claims and equivalent concepts described below.

1 is a block diagram illustrating a charging system of a conventional plug-in hybrid vehicle.

Figure 2 is a block diagram showing a battery charging device for a free-type plug-in powertrain according to a first embodiment of the present invention.

3 is a block diagram illustrating a battery charging device for a pay-plug type plug-in powertrain according to a second embodiment of the present invention.

Figure 4 is a perspective view showing a battery charging device for a power-type plug-in power tool according to a second embodiment of the present invention.

* Description of the code for the main parts of the drawings *

210: Free plug-in type battery charger for power tools

310: battery charger device for electric plug-in type of charge type

211, 311: external power input unit 212, 312: charging outlet

213, 313: leakage circuit breaker 214, 314: LED part

215, 321: display unit 216, 315: power measurement unit

217, 319: control unit 218, 320: communication unit

316: charge collector 317: power supply opening and closing

318: charge collection

Claims (9)

A charging outlet connected to the charging plug on the battery side; An external power input unit to which external power is input; A voltage line connecting between the external power input unit and the charging outlet; A power amount measuring unit measuring an amount of power charged to the battery through the voltage line; A controller for displaying the amount of power measured by the amount measuring unit through a display unit; A communication unit for communicating with an external communication network; A controller configured to transmit the amount of power measured by the power amount measuring unit to an external communication network through the communication unit; A charge collection unit for collecting user charges; A rate calculator for converting the amount of power measured by the amount of electricity measurement unit into an electricity rate; A power supply opening / closing unit selectively blocking power supplied to the battery; And A control unit for controlling the power supply opening and closing unit by comparing the amount collected by the charge collection unit with the power charge calculated by the charge calculation unit; Characterized in that it comprises Plug-in type battery charger for power tools. delete delete The method of claim 1, When the overvoltage is applied to the external power input unit characterized in that it further comprises a circuit breaker for cutting off the power supplied to the battery Plug-in type battery charger for power tools. The method of claim 1, Sensing the flow of current passing through the charging outlet, characterized in that it further comprises an LED unit for displaying the state of charge of the battery according to the flow of the detected current Plug-in type battery charger for power tools. delete The method of claim 1, Further provided with a communication unit for communicating with the external communication network, The controller may be configured to communicate with an external communication network through the communication unit based on the information input to the charge collection unit to settle a fee. Plug-in type battery charger for power tools. The method of claim 1, The toll collection unit, Characterized in that it is provided in at least one of a cash storage method, a contact card reader method and a contactless card reader method. Plug-in type battery charger for power tools. The method of claim 1, The display unit includes a touch screen, Receiving operation information through the touch screen Plug-in type battery charger for power tools.

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