JP2010230345A - Portable device for outputting charging rate - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a portable device for outputting a charging rate which facilitates the use of commercial power sources of normal households, factories, companies, etc. when charging a battery of an electric vehicle and can promote spread of electric vehicles. <P>SOLUTION: This portable device 10 for outputting a charging rate includes a voltage detecting means 19, which detects a voltage class of the power supplied from a power supply source 30; a unit price determining means 21 which determines an approximate unit price of a power rate, on the basis of the result of detection of the voltage detecting means 19; a power quantity measuring means 20, which measures the quantity of the power supplied from the power supply source 30; a power rate calculating means 21, which calculates the power rate by multiplying the approximate unit price of the power rate determined by the unit price determining means 21 by the quantity of the power measured by the power quantity measuring means 20; and a power rate output means 23, which outputs the power rate calculated by the power rate calculating means 21. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a portable charging charge output device for outputting an electricity charge when charging a battery of an electric vehicle from a power supply source.

  With increasing interest in environmental problems in recent years, electric vehicles have attracted attention in place of automobiles using gasoline as fuel, and some have been put into practical use.

  A conventional electric vehicle is equipped with a battery, and when the battery is exhausted, the battery is charged at a gas station equipped with a charging facility or a dedicated charging station, and a charge is charged according to the amount of electric power charged. Pay (see, for example, Patent Documents 1 and 2).

JP-A-6-343203 JP 2000-115914 A

  However, at present, there is a problem that it is difficult to promote the popularization of electric vehicles because the maintenance of a gas station equipped with charging facilities and a dedicated charging station are insufficient.

  The present invention has been made to solve the above-described problems, and it is easy to use a commercial power source of a general household, a factory, a company, or the like when charging a battery of an electric vehicle, and can promote the spread of the electric vehicle. An object of the present invention is to provide a portable charging fee output device.

  In order to achieve the above-described object, the present invention is a portable charging fee output device for outputting an electricity charge at the time of charging an electric vehicle battery from a power supply source, which is supplied from the power supply source. Voltage detection means for detecting the voltage type of power, unit price determination means for determining an approximate unit price of the electricity bill based on the detection result of the voltage detection means, and power amount measurement for measuring the amount of power supplied from the power supply source Means for calculating the electricity bill by multiplying the estimated unit price of the electricity bill determined by the unit price determining means by the amount of power measured by the electricity amount measuring means, and the electricity bill calculated by the electricity bill calculating means It is characterized by having an electricity bill output means for outputting.

  The portable charging charge output device according to the present invention further comprises information input means for inputting the contents of the electric contract of the power supply source, and the unit price determining means is the input means instead of the estimated unit price of the electric charge. The unit price of the electricity charge may be determined based on the contents of the electricity contract input from.

  The portable charging charge output device according to the present invention includes an electricity charge setting means for setting a predetermined electricity charge, and the power supply from the power supply source when the electricity charge set by the electricity charge setting means is reached. You may provide the electric power supply stop means to stop supply forcibly.

  Further, the portable charging fee output device according to the present invention includes a chargeable capacity detection means for detecting a chargeable capacity of the battery of the electric vehicle, a chargeable capacity of the battery detected by the chargeable capacity detection means, and the voltage. A charging completion time calculating unit that calculates a charging completion time based on a detection result of the detecting unit and a charging completion time output unit that outputs the charging completion time calculated by the charging completion time calculating unit may be provided.

  Furthermore, the portable charging charge output device according to the present invention reaches the electricity charge set by the electricity charge setting means based on the electricity charge set by the electricity charge setting means and the detection result of the voltage detection means. Charging completion time calculating means for calculating the charging time until charging, and charging completion time output means for outputting the charging completion time calculated by the charging time calculating means.

  ADVANTAGE OF THE INVENTION According to this invention, when charging the battery of an electric vehicle, it becomes easy to utilize commercial power sources, such as a general household, a factory, a company, etc., and can aim at promotion of the propagation of an electric vehicle.

It is a top view which shows the external appearance of the portable charging fee output apparatus which concerns on embodiment of this invention. It is a functional block diagram which shows the structure of the portable charging fee output apparatus which concerns on embodiment of this invention. It is a schematic diagram which shows the state which is using the portable charging fee output device which concerns on embodiment of this invention. It is a flowchart which shows the effect | action of the portable charging fee output apparatus which concerns on embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a plan view showing the appearance of a portable charging fee output device according to an embodiment of the present invention. The portable charging fee output device 10 has a small box shape, and a touch panel 11 is formed on the surface thereof. A plurality of (for example, three in FIG. 1) display lamps 12a, 12b, and 12c, a plurality of (for example, three in FIG. 1) operation buttons 13a, 13b, and 13c, and a power switch 14. Has been. In this case, for example, the display lamp 12a is lit when charging from the AC power supply source 30 of AC 100V, and the display lamp 12b is lit when charging from the AC power supply source 30 of AC 200V. The display lamp 12c can be configured to flash when an abnormality occurs. Further, the operation button 13a can be configured to have a charge start function, the operation button 13b can have a charge stop function, and the operation button 13c can have a reset function.

  An electric cord 16 having a commercial power connector 15 at its tip is connected to one side of the portable charging fee output device 10 so as to be stretchable and an outlet 18 to which an electric vehicle side connector 17 can be connected to the other side. Is provided.

  FIG. 2 is a functional block diagram showing the configuration of the portable charging fee output device 10 according to the embodiment of the present invention. The portable charging fee output device 10 is a voltage of power supplied from the power supply source 30. A detection unit 19 that detects whether the type is 100 V or 200 V, or detects a chargeable capacity of the battery 41 of the electric vehicle 40, and a measurement unit that measures the amount of power supplied from the power supply source 30 20, a control unit 21 that calculates an electricity charge and a charge completion time, an input unit 22 for inputting the contents of an electric contract of the power supply source 30, and an output that displays an electricity charge and a charge completion time Unit 23 and a storage unit 24 for storing the contract contents, unit price, etc. of the electricity bill. In the present embodiment, the touch panel 11 has both functions of the input unit 22 and the output unit 23. .

  Next, the operation of the portable charging fee output device 10 having the above-described configuration will be described with reference to the drawings. Here, FIG. 3 is a schematic diagram showing a state in which the portable charging fee output device according to the embodiment of the present invention is used, and FIG. 4 is a flowchart showing the operation of the portable charging fee output device.

  When the power supply source 30 is an AC 100V general household, when the power switch 14 is turned on, the commercial power connector 15 is connected to an AC 100V outlet, and the operation button 13a is pressed, the display lamp 12a is turned on and detected. The unit 19 detects that the voltage of the power supplied from the power supply source 30 is 100 V (S101). Then, the control unit 21 searches the electricity rate unit price of the household AC 100V from the electricity rate table stored in the storage unit 24 based on the detection result by the detection unit 19 and determines it as the approximate unit price. (S102), the meter side unit 20 measures the amount of power supplied from the power supply source 30 (S103).

  On the other hand, when the power supply source 30 is an AC 200V factory or company, the power switch 14 is turned on, the commercial power connector 15 is connected to the AC 200V outlet, and the operation button 13a is pressed. 12b lights up, and the detection unit 19 detects that the voltage of the power supplied from the power supply source 30 is 200 V (S101). Then, the control unit 21 searches the electricity rate unit price of the household AC 100V from the electricity rate table stored in the storage unit 24 based on the detection result by the detection unit 19 and determines it as the approximate unit price. (S102), the meter side unit 20 measures the amount of power supplied from the power supply source 30 (S103).

  Thereafter, in each of the cases described above, the control unit 21 calculates an electricity bill by multiplying the estimated unit price of the electricity bill by the measured electric energy (S104), and displays this electricity bill on the output unit 23 of the touch panel 11 ( S105). At this time, the used electric energy (kwh) may be displayed together or separately.

  As described above, according to the portable charging charge output device 10 according to the above-described embodiment, since the electricity charge of the power used at the time of charging is immediately displayed on the spot, when commercial power is borrowed from the power supply source 30 You can pay for electricity immediately. Therefore, it becomes easy to obtain cooperation from the power supply source 30 for the borrowing of commercial power, and it is easy to promote the spread of electric vehicles even if the maintenance of a gas station equipped with a charging facility or a dedicated charging station is not sufficient. Such effects can be obtained.

  In the portable charging fee output device 10 according to the above-described embodiment, the contents of the electric contract of the power supply source 30 (for example, contract type by each power company, contract capacity, unit price by time zone) from the input unit 22 of the touch panel 11. , Seasonal unit price, etc.) can be input (or selected), and the control unit 21 is configured to search and determine the unit price of the corresponding electric contract from the pre-stored unit price table for each electric contract. Also good.

  Further, a predetermined electricity bill (for example, an upper limit electricity bill) can be set from the input unit 22 of the touch panel 11, and when the set electricity bill is reached, the control unit 21 receives power from the power supply source 30. You may comprise so that supply of electric power may be stopped forcibly.

  Further, the control unit 21 is configured to detect the chargeable capacity of the battery of the electric vehicle 40, and the detected chargeable capacity of the battery and the voltage of the power supply source 30 detected by the detection unit 19 (100V or 200V). ) To calculate the charging completion time, and display the calculated charging completion time on the output unit 23 of the touch panel 11.

  Furthermore, based on the electricity rate set from the input unit 22 of the touch panel 11 and the voltage (100 V or 200 V) of the power supply source 30 detected by the detection unit 19, the control unit 21 sets the set electricity rate. It may be configured to calculate the charging time until it reaches, and display the calculated charging completion time on the output unit 23 of the touch panel 11.

  In the above-described embodiment, the case where the electric vehicle 40 is charged has been described. However, this is merely an example, and it goes without saying that the present invention can also be used when charging a hybrid electric vehicle. Absent.

DESCRIPTION OF SYMBOLS 10 Portable charge charge output device 11 Touch panel 19 Detection part (Voltage detection means, chargeable capacity detection means)
20 Measuring unit (electric energy measuring means)
21 Control unit (unit price determination means, electricity charge calculation means, power supply stop means, charge completion time calculation means)
22 Input section (information input means, electricity rate setting means)
23 Output unit (electricity rate output means, charging completion time output means)
30 Electricity supplier 40 Electric car

Claims (5)

A portable charging charge output device for outputting an electricity charge when charging a battery of an electric vehicle from a power supplier,
Voltage detection means for detecting a voltage type of power supplied from the power supply source;
Unit price determination means for determining an approximate unit price of the electricity bill based on the detection result of the voltage detection means;
Electric energy measuring means for measuring the electric energy supplied from the power supply source;
An electricity bill calculating means for calculating an electricity bill by multiplying the estimated unit price of the electricity bill determined by the unit price determining means by the amount of power measured by the electricity amount measuring means;
An electricity bill output means for outputting the electricity bill calculated by the electricity bill calculation means;
A portable charging fee output device comprising: It further comprises information input means for inputting the electric contract details of the power supply source,
2. The portable charging charge output device according to claim 1, wherein the unit price determining means determines the unit price of the electric charge based on the contents of the electric contract inputted from the input means instead of the estimated unit price of the electric charge. Electricity rate setting means for setting a predetermined electricity rate;
Power supply stopping means for forcibly stopping the supply of power from the power supply source when the electricity price set by the electricity price setting means is reached;
The portable charging fee output device according to claim 1 or 2, further comprising: Rechargeable capacity detecting means for detecting the rechargeable capacity of the battery of the electric vehicle;
Charging completion time calculating means for calculating a charging completion time based on the chargeable capacity of the battery detected by the chargeable capacity detecting means and the detection result of the voltage detecting means;
Charging completion time output means for outputting the charging completion time calculated by the charging completion time calculating means;
The portable charging fee output device according to any one of claims 1 to 3, further comprising: A charge completion time calculating means for calculating a charging time until the electricity charge set by the electricity charge setting means is reached based on the electricity charge set by the electricity charge setting means and the detection result of the voltage detection means;
Charging completion time output means for outputting the charging completion time calculated by the charging time calculation means;
The portable charging fee output device according to claim 3, comprising:

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