KR101423053B1 - Charging system for instrument by remote control - Google Patents

Abstract

The present invention relates to a charging power integrating system for a radio control equipment, wherein a charging power integrating system for a radio control equipment according to the present invention outputs power supplied to a charger, at least one of which is connected in parallel with one another, A plurality of charge channels for outputting the charge channels; An input unit for selecting and inputting a charge channel to be output by integrating at least two powers among the plurality of charge channels and inputting a type of the battery to be charged; And a charging port that integrates the amount of power output from at least two of the plurality of charging channels and outputs power to the battery.
According to the charging power integrating system for a radio-controlled device according to the present invention as described above, by connecting a plurality of charging channels mutually in parallel, the amount of power supplied to the battery at one time through the charging port is increased, There is an advantage that the charging time of the battery can be shortened more than before.

Description

[0001] Charging system for remote control [0002]

[0001] The present invention relates to a charging power integrating system for a radio-controlled equipment, and more particularly, to a charging power integrating system for a radio-controlled apparatus, more specifically, by connecting a plurality of charging channels mutually in parallel, (I.e., supplying a constant amount of electric power) are connected in parallel with each other, the output voltage of the entire charge channels connected in parallel is still the same, And the charging power determined by the charging voltage X charging current is also increased by the number of charging channels to shorten the charging time of the battery.

Generally, a charger that charges a battery of a radio control device such as an electric helicopter, an electric car, an electric airplane, etc., which can be adjusted by a remote control, is connected and charged in a one-to-one correspondence with the battery. The capacity of the battery to be charged differs depending on the type of the battery, and the amount of power of the charging channel of the charging device is also limited. Since the charging is performed in a one-to-one correspondence, the battery is charged by the amount of power input to the charging channel, The minimum time required to charge the battery is determined. For example, if the input power was 50Wh, it took at least 1 hour to buffer a 500W battery. Therefore, since the battery is charged through the chopping channel having the maximum amount of electric power, a longer time is required as the capacity of the battery increases, and a means for shortening the charging time is required.

Japanese Patent Application Laid-Open No. 09-103033

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a charging apparatus and a charging method thereof, in which a plurality of charging channels are connected in parallel to each other, When the respective charge channels that supply a voltage and a constant amount of current (that is, supply a constant amount of power) are connected in parallel with each other, the output voltage of the entire charge channels connected in parallel remains the same, So that the charging power determined by the charging voltage X charging current also increases by the number of charging channels to shorten the charging time of the battery.

In order to solve the above-mentioned problems, the channel integrated charging system according to the present invention outputs power supplied to a battery to be charged, at least one of which is connected in parallel to each other so that output currents are integrated with each other, A plurality of charge channels for integrating and outputting; An input unit for selecting and inputting a charge channel to be output by integrating at least two powers among the plurality of charge channels and inputting a type of the battery to be charged; And a charging port that integrates the amount of power output from at least two of the plurality of charging channels and outputs power to the battery.

In addition, the input unit inputs the charge end voltage value so that the charge can be terminated when the target charge amount is reached for each battery, and after the charging or discharging process to cool the heat of the battery that has been charged or discharged, And a delay time for allowing the battery to sufficiently cool the battery until the next charging or discharging cycle starts.

Also, an LCD screen displays a status of when the battery is connected to the charger and is charged or discharged, and a warning about the error when the charger malfunctions and a cause of the error. And a beep sound speaker for outputting a warning sound to warn the occurrence of a function error of the charger.

As described above, according to the present invention, since a plurality of charging channels are connected in parallel to each other, the current supplied to the battery through the charging port at one time is merged by the parallel connection, so that a constant level of voltage and constant current In other words, when each of the charge channels for supplying a constant amount of power is connected in parallel, the output voltage of the entire charge channels connected in parallel is maintained as it is, but the supplied current is increased by the number of connected charge channels, The charging power determined by the charging current is also increased by the number of the charging channels to shorten the charging time of the battery before connecting the charging channels to each other in parallel.

1 is a perspective view showing a charging power integrating system for a radio control equipment according to a preferred embodiment of the present invention,
FIG. 2 is a schematic view showing the integration of a charge channel in a charge power integration system for a radio control apparatus according to a preferred embodiment of the present invention. FIG.
3 is a flow chart illustrating a charging power integration method for a radio control device according to a preferred embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. Like reference symbols in the drawings denote like elements.

FIG. 1 is a perspective view showing a charging power integrating system for a radio control equipment according to a preferred embodiment of the present invention. FIG. 2 is a view showing a merging of a charging channel of a charging power integrating system for a radio control equipment according to a preferred embodiment of the present invention FIG. 3 is a flowchart illustrating a charging power integrating method for a radio control apparatus according to a preferred embodiment of the present invention.

1 to 3, the charging power integrating system for a radio control equipment according to a preferred embodiment of the present invention includes an input unit 100, a charging channel 200, and a charging port 300.

The input unit 100 inputs the type of the battery 500 to be charged in various batteries such as Li-MH, Ni-Cd, Li-Po and Li-Fe batteries, In the present invention, the input unit 100 determines and inputs a charge channel 200 for supplying power to a specific battery 500 among a plurality of charge channels 200, 200 ', 200 ", ..., The input unit 100 determines and inputs the charging channel 200, thereby enabling quick charging of the battery according to the number of the charging channels 200 to be inputted.

In addition, the input unit 100 preferably inputs a charging end voltage value so that charging can be terminated automatically when the cell count time and the target amount are reached.

When the battery 500 is charged, the temperature of the battery 500 is increased due to a chemical action occurring inside the battery 500. By setting the limit temperature of the battery 500 in advance through the input unit 100, It is preferable to automatically end the charging when the limit temperature reaches the maximum value.

In order to lower the temperature of the battery 500 that has undergone the charging or discharging process, the input unit 100 preferably sets a delay time to be taken until the next charging or discharging cycle starts after the charging or discharging process.

The charging channel 200 outputs power supplied from the outside to the charging port 300 to enable charging of the battery 500. In the present invention, the charging channel 200 includes a plurality of charging channels 200, 200 ', 200' ',...) Are connected in parallel to integrate the respective output currents to integrate the power and output the integrated power to the charging port 300. The charging channel 200 are connected to a charging channel 200, 200 'connected to each other in parallel when selecting the charging channels 200, 200' from the input unit 100 among the plurality of charging channels 200, 200 ', 200 " For example, when the charging channel 200 supplies 50 W of electric power per hour and charges a battery having a capacity of 500 W, the electric power supplied to the battery 500 is supplied to the battery 500, When charging according to the conventional method, since only one charging channel 200 is connected, the charging time is 10 hours As shown in FIG. 2, when the battery having the capacity of 500 W is charged, the charging amount of the charging channels 200 and 200 'having the respective power amounts of 50 Wh is integrated, The charging time can be shortened.

In other words, the charging channel 200 is formed by connecting a plurality of charging channels 200, 200 ', 200 ",... In parallel to integrate the output currents of the charging channels 200, It is possible to charge the battery faster than selecting one of the charging channels 200 and proceeding with charging.

The charging port 300 is formed on a side surface of the charging device 1 and transfers power output from the charging channel 200 to the battery 500. In the present invention, The anode of the plurality of charge channels 200, 200 ', 200 ",... Are integrated into the anode and the cathode to the cathode, separated into the charging port 301 of the anode and the charging port 302 of the cathode, So that one charging port 300 is formed.

The LCD screen 400 displays input items of the input unit 100 and charging progress of the battery 500. The user can input the type of the battery 500 through the input unit 100, Provides convenience for the user when setting the channel 200, and makes it possible to easily identify the state of charge of the battery 500. On the other hand, when an error occurs in the function of the charger 1, the LCD screen 400 displays a warning about the error and a cause of the error.

On the other hand, it is preferable that the charger 1 is provided with a beep sound speaker for outputting a warning sound to inform the user of the occurrence of an error when an error occurs in the charger 1.

Hereinafter, a charging power integrating method for a radio control apparatus according to a preferred embodiment of the present invention will be described with reference to FIG.

The first user sets the type of the battery 500, the time required for charging, and the charging end voltage value to the input unit 100 of the charger 1. The termination charge voltage value refers to a reference voltage value for setting the reference voltage value at which the charging of the battery is to be ended, and terminating the charge when the charge reaches the corresponding voltage value. Next, the initial setting values are input to the input unit 100, and then a charge channel to be charged is selected among a plurality of charge channels 200, 200 ', 200 " It may be two, three, or more.

It is preferable that the input unit 100 inputs a delay time for allowing the battery 500 to cool sufficiently before the charging or discharging cycle starts to cool the battery 500 that has been charged or discharged.

When the selection of the charging channel 200 is completed as described above, the powers of the selected plurality of charging channels 200, 200 ', 200 ", ... are integrated and output, If there is no abnormality during the charging, the charging is completed and the charging is completed. However, if an error occurs in the charger 1, it is indicated that an error has occurred in the LCD screen 400, The user confirms the occurrence of the error and operates the input unit 100 to remove the error, and the charging is resumed when the removal of the error is completed.

Optimal embodiments have been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1: Charger 100: Input unit
200: Charging channel 300: Charging port
400: LCD screen 500: Battery

Claims (3)

A plurality of charge channels for outputting power supplied to a battery to be charged, at least one of the charge channels being connected in parallel so that output currents are integrated with each other to integrate and output power;
An input unit for selecting and inputting a charge channel to be output by integrating at least two powers among the plurality of charge channels and inputting a type of the battery to be charged;
And a charge port for integrating the amount of power output from at least two of the plurality of charge channels and outputting power to the battery,
Wherein the input unit comprises:
For each battery, the charging end voltage is input so that the charging can be terminated when the target charging amount is reached, and the next charging or discharging cycle is performed after the charging or discharging process in order to cool the battery, And a delay time for allowing the battery to cool sufficiently before the start of the charging operation.
delete The method according to claim 1,
An LCD screen displaying a warning when the battery is charged or discharged when the battery is connected to the charger and a functional error of the charger, and a cause of the error and an error;
And a beep sound speaker for outputting a warning sound for warning of a function error of the charger.

Images