KR101849779B1 - Slow fast charge possible two mode Mobility Chargers - Google Patents

Abstract

The present invention relates to a two-mode mobility charging device capable of slow and fast charging. According to an embodiment of the present invention, the two-mode mobility charging device capable of slow and fast charging comprises: a charging unit (10); an inputting unit (20); a microprocessor (40); and an outputting unit (50). The two-mode mobility charging device capable of slow and fast charging of the present invention can effectively secure a service life of a battery.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a two-mode mobility charger,

The present invention relates to a two-mode mobility charger capable of continuous charging and rapid charging. More particularly, the present invention relates to a two-mode mobility charger capable of selecting either one of a slow charging mode and a rapid charging mode through a mode setting unit of the input unit, Allows the microprocessor to control the charging unit to control the battery to be charged at a constant or fast rate in the selected mode so that the user can selectively charge the battery at a slow and fast rate through a single charger, The present invention relates to a two-mode mobility charger capable of performing continuous charging and rapid charging capable of effectively ensuring the service life of the battery.

Personal mobility, which is called "smart mobility" and "micro mobility," are becoming popular as a means of transportation in advanced countries, especially in Europe, due to their environmentally friendly and easy-to-use characteristics.

In Korea, personal mobility is attracting attention as a new culture centered on early adopters, and its demand is gradually increasing. Particularly, the demand for personal mobility for a single person, which is small in size and easy to hold, has been greatly increased.

In accordance with the increasing market of the mobility, the market of the charger for charging the battery of the mobility is also growing together.

Generally, in order to use the electric battery for a long period of time, it is preferable to charge the battery slowly at a low current. However, in the case of the full charge, it takes a long time to charge the battery. However, in the case of rapid charging, there is a disadvantage that the lifetime of the battery is reduced due to excessive charging of the battery.

Therefore, it is preferable that the user selects the slow charge and quick charge appropriately in consideration of the temporal situation when the battery is charged. However, since the conventional charger is supplied on the market only for the slow charge or rapid charge, There is a problem in that it is necessary to use one of the chargers by selecting one of the chargers in consideration of the above problems.

In addition, even if the user has two chargers, there is a problem in the use of the charger because it is inconvenient to selectively use the charger due to the characteristic that the charger must be used every time the charger is used.

The present invention has been made in order to solve all of the above problems, and it is an object of the present invention to provide a method of charging a battery by selecting one of a slow charging mode and a rapid charging mode through a mode setting unit of the input unit, The microprocessor controls the charging unit to control the battery to be charged at a constant or fast rate in the selected mode, so that the user can selectively charge the battery at a slow rate and at a rapid rate through a single charger. The present invention also provides a two-mode mobility charger capable of performing continuous charging and rapid charging that can effectively ensure the service life of the battery.

Further, when the user inputs the capacity information of the battery through the battery setting unit together with the mode setting unit of the input unit, the microprocessor detects the time consumed in the full charging of the battery and provides the user with the time through the output unit, The present invention also provides a two-mode mobility charger capable of rapidly charging the battery, which can clearly recognize the time consumed, thereby enabling convenient charging of the battery.

When the time to be charged is set through the time setting unit together with the battery setting unit of the input unit, the microprocessor sets the charging time of the charging unit that the battery can be fully charged at the time set in the time setting unit based on the battery capacity information and the charging time information. The current value is detected and the battery is fully charged for a predetermined period of time with the current value detected by the charger unit. This not only leads to a more convenient battery charging to the user, but also allows the battery to be charged to a minimum current value Mode mobility charger that can be charged at a high speed and which can safely protect the service life of the battery by charging the battery.

According to an aspect of the present invention, there is provided a two-mode mobility charger capable of being fully charged and capable of rapid charging, including a charging unit for supplying power to a battery of mobility connected to an external power source to charge the battery, And a control unit for detecting the time consumed in charging the battery based on the information input to the input unit, and based on the information input to the input unit and the detected time information, A microprocessor for controlling the charging of the battery through the charging unit during a period of time detected as any one of a charging mode in which the battery is charged with a current and a rapid charging mode in which the battery is charged with a high current through the charging unit A microprocessor (MCU) Made, including,; the output section such that the charge and the remaining charge time information of the battery group are output to the image presented to the user

The user can charge the battery at a high speed or at a high speed through the battery charging information input by the user through the input unit, thereby providing the user with the convenience of charging the battery,
Wherein the input unit comprises a battery setting unit for inputting the capacity of the battery and a mode setting unit for selecting a fast charging mode or a rapid charging mode of the battery, Based on the detection of the time consumed in charging the battery,
And a time setting unit for arbitrarily setting a charging time of the battery through the charging unit by inputting in place of the mode setting unit of the input unit,
When the user sets the time for charging the battery through the time setting unit, the microprocessor determines that the battery is fully charged through the charging unit at a time set in the time setting unit based on the battery capacity information and the charging time information After the charging current value of the charging unit is detected, the charging unit controls the battery to be charged for a preset time through the time setting unit,
When the battery charging time is arbitrarily set through the time setting unit and then the forced charging mode or the rapid charging mode is forcibly selected through the mode setting unit, Mode to charge the battery for a predetermined time,
A first transmitting and receiving unit for transmitting video information output through the output unit to a second transmitting and receiving unit through wireless communication or receiving control command information transmitted through the second transmitting and receiving unit and transmitting the control command information to the microprocessor, Receiving the image information transmitted through the first transmission / reception unit, transmitting the image information to the smartphone of the user, outputting the image of the output unit to the liquid crystal of the smartphone, and transmitting the control command information transmitted through the smart phone to the first Further comprising a second transmitting / receiving unit for transmitting to the transmitting / receiving unit,
The user can clearly recognize the state of charging the battery through the smartphone which receives and outputs the image information transmitted to the second transmitting and receiving unit through the first transmitting and receiving unit, Receiving the control command information through the second transmission / reception unit and transmitting the control command information to the first transmission / reception unit and transmitting the control command information to the microprocessor, And controls the operation of the charging unit.

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As described above, according to the two-mode mobility charger of the present invention, the mode setting unit of the input unit selects one of the slow charging mode and the rapid charging mode in consideration of the time required to charge the battery. Allows the microprocessor to control the charging unit to control the battery to be charged at a constant or fast rate in the selected mode so that the user can selectively charge the battery at a slow and fast rate through a single charger, So that the life of the battery can be effectively secured.

Further, when the user inputs the capacity information of the battery through the battery setting unit together with the mode setting unit of the input unit, the microprocessor detects the time consumed in the full charging of the battery and provides the user with the time through the output unit, It is possible to clearly recognize the time consumed so that the convenient charging of the battery can be induced.

When the time to be charged is set through the time setting unit together with the battery setting unit of the input unit, the microprocessor sets the charging time of the charging unit that the battery can be fully charged at the time set in the time setting unit based on the battery capacity information and the charging time information. The current value is detected and the battery is fully charged for a predetermined period of time with the current value detected by the charger unit. This not only leads to a more convenient battery charging to the user, but also allows the battery to be charged to a minimum current value It is possible to safely protect the service life of the battery by charging.

1 is a conceptual diagram of a two-mode mobility charger capable of fast charging and fast charging according to an embodiment of the present invention.
Fig. 2 is a perspective view of the two-mode mobility charger shown in Fig. 1,
3 is a view for explaining the two-mode mobility charger capable of the fast-charge and quick-charge charging shown in Fig. 1

A two-mode mobility charger capable of fast-charging and fast-charging according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Detailed descriptions of well-known functions and constructions that may be unnecessarily obscured by the gist of the present invention will be omitted.

FIG. 1 is a conceptual diagram of a two-mode mobility charger capable of fast-charging and fast charging according to an embodiment of the present invention. FIG. 1 is a block diagram of a two-mode mobility charger according to an embodiment of the present invention. Fig. 2 is a perspective view of the two-mode mobility charger capable of the fast-charge and quick-charge charging shown in Fig. 1, and Fig. 3 is a view for explaining the two-mode mobility charger capable of fast charging and fast charging shown in Fig. 1 will be.

As shown in the figure, a two-mode mobility charger 100 capable of a fast and fast charging according to an embodiment of the present invention includes a charging unit 10, an input unit 20, a microprocessor 40, (50).

As shown in FIG. 1, the charging unit 10 is a device for charging the battery 1 by supplying electric power to the battery 1 of mobility, which is supplied with electricity from the outside and is electrically connected, It is a matter of course that a charger for charging can be used.

As shown in FIG. 1, the input unit 20 receives information on charging of the battery 1,

A battery setting unit 21 for inputting the capacity of the battery 1 and a mode setting unit 22 for selecting a fast charging mode or a rapid charging mode of the battery 1.

3A, the user inputs the capacity of the battery 1 through the battery setting unit 21 before charging the battery 1, and the battery 1 is charged through the mode setting unit 22, 3B, the input information is transmitted to the microprocessor 40 to be loaded, and the battery 1 is charged with a predetermined amount of current, And the detection information is used as a basis for the microprocessor 40 to control the operation of the charging unit 10.

In this case, it is preferable that the mode setting unit 22 is configured such that when the user has a sufficient time to charge the battery 1, the user can select the slow charge mode to protect the life of the battery 1, When the time is short, it is preferable to select the rapid charging mode so that the battery 1 is quickly charged.

2, the input unit 20 may be implemented through a touch screen image formed on one side of a two-mode mobility charger 100 capable of performing a slow and fast charging according to an embodiment of the present invention. The information of the battery setting unit 21 and the mode setting unit 22 of the input unit 20 may be input in a manner that the user touches the touch screen.

1, the microprocessor 40 calculates and detects the time consumed for charging the battery 1 based on the information input to the input unit 20, and inputs the calculated time to the input unit 20 The battery 1 is charged with a low current through the charging unit 10 and the constant charging mode in which the battery 1 is charged with a high current through the charging unit 10, And controls the charging unit (10) to charge the battery (1) during a period of time detected in any one of the charging modes among the rapid charging mode.

When the capacity (current capacity) information of the battery 1 is input to the battery setting unit 21, the microprocessor 40 can detect the remaining amount of the battery 1 through the current voltage of the battery 1 Therefore, the microprocessor 40 can easily detect the time required for the full charging of the battery 1 through the mode information selected by the mode setting unit 22 together with the capacity information of the battery 1.

It goes without saying that the microprocessor 40 can control the charging unit 10 to charge the battery 1 with a low current or a high current through a program to be established.

1 and 2, the output unit 50 outputs a charge amount of the battery 1 and remaining charge time information, which are charged through the control of the microprocessor 40, .

Here, the output unit 50 is implemented through a touch screen formed on one side of the two-mode mobility charger 100 capable of the fast and fast charging of the present invention. The input unit 20 is connected to the liquid crystal of the touch screen The input unit 20 and the output unit 50 may be configured to be limited to only the touch screen type, no.

For example, instead of the touch screen, a switch may be used for the input unit 20 and the output unit 50 may be implemented using an LCD and other display devices, (50) is constructed in such a manner that the function is implemented without the limit line.

2 mode mobility charger 100 capable of a fast charge and a fast charge according to the present invention having the above-described components according to the present invention, a user may set a mode setting unit (not shown) of the input unit 20 in consideration of a time- The microprocessor 40 controls the charging unit 10 to control the battery 1 to be charged slowly or rapidly in the selected mode, , The user can selectively perform the continuous charging and the rapid charging of the battery 1 through one charger so that the convenient charging of the battery 1 can be induced and the useful life of the battery 1 can be effectively secured There is an effect that can be done.

When the user inputs the capacity information of the battery 1 through the battery setting unit 21 together with the mode setting unit 22 of the input unit 20, Since the time consumed in the full charge is detected and provided to the user through the output unit 50, the user can clearly recognize the time consumed in charging the battery, thereby enabling the convenient charging of the battery 1 .

1, a time setting unit 22 for arbitrarily setting the charging time of the battery 1 through the charging unit 10 by inputting in place of the mode setting unit 22 of the input unit 20, (60).

3D, when the user sets the time for charging the battery 1 through the time setting unit 60, the microprocessor 40 determines that the battery 1 is being charged, (1) the charging current of the charging unit 10, through which the battery 1 can be fully charged through the charging unit 10, at a time set in the time setting unit 60 based on the capacity information and the set charging time information, And controls the charging unit 10 to charge the battery 1 for a preset time through the time setting unit 60 with the detected current value.

Therefore, the battery 1 is automatically fully charged at a predetermined time through the time setting unit 60 so that the battery 1 can be conveniently charged, and at the same time, It is possible to safely protect the service life of the battery 1 by charging the battery 1 with a minimum current value that can be charged.

3F, after the charging time of the battery 1 is arbitrarily set through the time setting unit 60, a forced charging mode or a rapid charging mode is forcibly selected through the mode setting unit 22 The microprocessor 40 can charge the battery 1 for a time set in the charging mode set by the charging unit 10 regardless of the full charge of the battery 1. [

That is, the user can easily set the battery 1 in the desired charging mode for a desired period of time through the inputs of the mode setting unit 22 and the time setting unit 60, so that the user can further charge the battery 1 Can be provided.

1, the image information output through the output unit 50 may be transmitted to the second transmission / reception unit 72 via the wireless communication or may be transmitted through the second transmission / reception unit 72 A first transmission / reception unit 71 for receiving control command information and transmitting the control command information to the microprocessor 40,

And receives the image information transmitted through the first transmission and reception unit 71 and transmits the image information to the smartphone 2 of the user to output the image of the output unit 50 to the liquid crystal 2a of the smart phone 2 And a second transmitting and receiving unit 72 for transmitting control command information transmitted through the smartphone 2 to the first transmitting and receiving unit 71 through wireless communication,

As shown in FIG. 3G, the user transmits the image information to the second transmission / reception unit 72 through the first transmission / reception unit 71, So that it is possible to clearly recognize the situation in which the battery 1 is charged,

Control command information input by the user via the smartphone 2 is received by the first transmission and reception unit 71 through the second transmission and reception unit 72 and transmitted to the microprocessor 40, The microprocessor 40 having received the command information controls the operation of the charging unit 10 based on the control command information.

Accordingly, the user can clearly recognize the situation where the battery 1 is being charged through the smartphone 2 from the outside, and can control the operation of the device remotely from the outside through the smartphone 2 Which can lead to the use of a very convenient device.

The second transmission / reception unit 72 may be implemented as a conventional wireless communication device built in the smart phone 2, and the wireless communication method may be implemented by a Bluetooth (bluetooth) And Wireless Fidelity (WIFI).

The smartphone 2 is also provided with an application program for outputting an image of the output unit 50 transmitted from the first transmission / reception unit 71 and guiding the control command to be transmitted easily.

The two-mode mobility charger 100 having the above-described configuration and capable of the fast and fast charging according to the embodiment of the present invention is used as follows.

For ease of explanation of the two-mode mobility charger 100 capable of full speed and rapid charging according to the present invention, the charging unit 10 has a maximum charging current (high current) value of 8 A (ampere) and a minimum charging current 4A, and the battery 1 has a capacity of 20 Ah.

3A, the battery 1 of the mobility to be charged is connected to the two-mode mobility charger 100 capable of full-speed charging and quick charging of the present invention, and then the battery setting unit 21 of the input unit 20 And sets the desired charging mode through the mode setting unit 22. The mode setting unit 22 sets the charging mode of the battery 1,

For example, the capacity of the battery 1 is inputted to the capacity of the battery 1 through the battery setting unit 21, and the slow charging mode in which the low current 4A is charged through the mode setting unit 22 is inputted. The remaining amount of the battery 1 is calculated as 50% through the microprocessor 40. As shown in FIG. 3B, the microprocessor 40 calculates the remaining capacity of the battery 1 based on the input information and the calculated information, Is detected as 2 hours and 30 minutes.

3C, the microprocessor 40 controls the battery 1 to be fully charged at a low current through the charging unit 10 for 2 hours and 30 minutes. At this time, the battery 1 is charged Is outputted as an image through the output unit (50).

If the battery 1 can be charged for only 2 hours on the user's time basis as shown in FIG. 3D and FIG. 3E, the charging time can be set in the time setting unit 60 instead of the mode setting unit 22 2 hours, the microprocessor 40 detects the current value of the battery charger 10 which can be fully charged in two hours based on the input information. When the capacity of the battery 1 is 20 A And the calculated remaining charge of the battery 1 is 50%. When the set charging time is 2 hours, the charging current value of the charging unit 10 is detected as 5A.

Therefore, the microprocessor 40 controls the battery 1 to be fully charged with the current of 5A through the charging unit 10 for 2 hours.

In this way, the user can conveniently charge the battery in consideration of his / her time condition.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. You will understand the point. It goes without saying that variations can be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the scope of claim of the present invention is not limited within the scope of the detailed description, but will be defined by the following claims and technical ideas thereof.

1. Battery 2. Smartphone
2a. Liquid crystal
10. Charger 20. Input
21. Battery setting section 22. Mode setting section
40. Microprocessor
50. Output section 60. Time setting section
71. First transmission / reception unit 72. Second transmission / reception unit
100. Two-mode mobility charger for fast and fast charging

Claims (5)

In a charger for charging a mobility battery 1,
A charging unit 10 for supplying power to the battery 1 of mobility connected to the external power supply to charge the battery 1;
An input unit 20 for inputting information on charging of the battery 1;
The charging unit 10 detects the time consumed for charging the battery 1 based on the information input to the input unit 20 and based on the information input to the input unit 20 and the detected time information, (1) during a period of time detected in any one of a charging mode in which the battery (1) is charged with a low current and a rapid charging mode in which the battery (1) is charged with a high current through the charging unit (10) A microprocessor (MCU) 40 for controlling the battery 1 to be charged through the battery 10; And
And an output unit (50) for outputting a charged amount of the battery (1) and remaining charge time information through the control of the microprocessor (40) to the user so as to be provided to the user,
The user can charge the battery 1 at a high speed or at a high speed through the charging information of the battery 1 inputted through the input unit 20 to provide the user with the convenience of charging the battery 1,
The input unit 20 includes a battery setting unit 21 for receiving the capacity of the battery 1 and a mode setting unit 22 for selecting a fast charging mode or a rapid charging mode of the battery 1, The microprocessor 40 detects the time consumed in charging the battery 1 based on information input to the battery setting unit 21 and the mode setting unit 22,
And a time setting unit (60) for arbitrarily setting the charging time of the battery (1) through the charging unit (10) by inputting in place of the mode setting unit (22) of the input unit (20)
When the user sets the time for charging the battery 1 through the time setting unit 60, the microprocessor 40 sets the time setting unit 60 based on the capacity information of the battery 1 and the set charging time information, The charging unit 10 detects the charging current value of the charging unit 10 through which the battery 1 can be fully charged through the charging unit 10 at a time set in the charging unit 60, The controller 60 controls the setting unit 60 to charge the battery 1 for a predetermined time,
When the charging time of the battery 1 is arbitrarily set through the time setting unit 60 and then the forced charging mode or the rapid charging mode is forcibly selected through the mode setting unit 22, The charging unit 10 charges the battery 1 for a time set in a predetermined charging mode regardless of the full charging of the battery 1,
Receiving unit 72 via the wireless communication with the image information output through the output unit 50 or receives the control command information transmitted through the second transmitting and receiving unit 72, Receiving unit 71 for receiving the image information transmitted through the first transmitting and receiving unit 71 and transmitting the received image information to the smartphone 2 of the user, Receiving unit 71 to transmit the control command information transmitted through the smartphone 2 to the first transmitter / receiver 71 through the liquid crystal 2a, ≪ RTI ID = 0.0 > - Receiving unit 72,
The user transmits the image information to the second transmission / reception unit 72 through the first transmission / reception unit 71 and receives the image information through the smart phone 2, The control command information input by the user through the smartphone 2 is received by the first transmission and reception unit 71 through the second transmission and reception unit 72 and transmitted to the microprocessor 40), and the microprocessor (40) having received the control command information controls the operation of the charging unit (10) based on the control command information. The two-mode mobility charger. delete delete delete delete

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