JP3226434U - Smart charging identification device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a smart charge identification device capable of charging an electric vehicle having a different battery standard by an external charging facility and preventing the battery from being damaged. A smart charge identification device includes a battery module 1, a battery management module 2, and a charge notification module 3. The battery management module 2 is electrically connected to the battery module 1, performs voltage detection and potential detection, and generates battery information matching the battery module 1 based on the results of voltage detection and potential detection. The charging notification module 3 is connected to the battery management module 2 to receive the battery information, and is also electrically connected to the notification unit 30 for transmitting the battery information to the external charging equipment 4 and the battery information. And a DC power supply unit 32 that supplies a correspondingly generated DC current. [Selection diagram] Figure 1

Description

The present invention relates to an identification device, and more particularly to a smart charging identification device.

In recent years, the production volume of electric vehicles, such as electric vehicles and electric motorcycles, is increasing year by year, and major manufacturers are actively conducting research and development on electric vehicles. Since the power source of the electric vehicle is a battery, there is an increasing demand for peripheral devices related to the battery of the electric vehicle, such as electrical connectors.

The batteries of major automobile manufacturers have different standards, so the voltage supplied to the external charging equipment is different. Therefore, each major automobile manufacturer installed its own external charging equipment with a special standard. In the long term, electric vehicles have a future, but when the ratio of electric vehicles increases, it is difficult for users to use various types of external charging equipment having different standards. Also, if the locations where external charging equipment can be installed are limited and the standards for charging equipment cannot be standardized, there will be insufficient locations where they can be installed, and a sufficient number of external charging equipment cannot be installed. The problem was pointed out.

Therefore, an object of the present invention is to provide a smart charge identification device that can charge an electric vehicle having a different battery standard by an external charging facility (battery clamp) and prevents the battery from being damaged. ..

Therefore, the present inventor has conducted intensive studies in order to solve the above problems of the present invention, and as a result, has focused on the fact that the smart charge identification device including the battery module, the battery management module and the charge notification module can solve the above problems. However, the present invention has been made based on such knowledge.

Thus, the gist of the present invention is as described in the following (1) to (5).
(1) A smart charge identification device including a battery module, a battery management module, and a charge notification module,
The battery management module is electrically connected to the battery module, performs voltage detection and potential detection, and generates battery information matched with the battery module based on a result of the voltage detection and the potential detection,
The charging notification module is connected to the battery management module to receive the battery information, and a notification unit that transmits the battery information to an external charging facility, and is electrically connected to the external charging facility to connect the battery information. And a DC power supply unit that supplies a DC current generated corresponding to the smart charge identification device.
(2) The battery module is a titanium niobium oxide battery, a lithium cobalt oxide battery, a lithium manganate battery, a lithium nickel oxide battery, a lithium nickel manganese cobalt (ternary) battery, an iron phosphate lithium ion battery, a lithium ceramic battery or a soft The smart charge identification device according to (1) above, which is a carbon battery.
(3) The smart charge identification device according to (1), wherein the voltage detection range is 48 to 126V.
(4) The smart charge identification device according to (1), wherein the battery management module and the charging notification module are provided on a circuit board.
(5) The smart charge identification device according to (1), wherein the battery information is a voltage value and a current value.

INDUSTRIAL APPLICABILITY The present invention is configured as described above and can charge batteries of various standards with any kind of external charging equipment and prevent damage to the batteries.

1 is a perspective view showing a smart charge identification device according to an embodiment of the present invention. 1 is a block diagram illustrating a smart charge identification device according to an exemplary embodiment of the present invention. FIG. 3 is a block diagram illustrating driving of a smart charge identification device according to an exemplary embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. However, the present invention is not limited to the drawings.

Please refer to FIG. 1 and FIG. FIG. 1 is a perspective view showing a smart charging identification device according to an embodiment of the present invention. FIG. 2 is a block diagram showing a smart charge identification device according to an embodiment of the present invention. As shown in FIGS. 1 and 2, a smart charging identification device according to an embodiment of the present invention includes at least a battery module 1, a battery management system (BMS) 2 and a charging notification module 3. .. The battery management module 2 is electrically connected to the battery module 1, performs voltage detection and potential detection, and generates battery information matching the battery module based on the results of voltage detection and potential detection. The battery information is a voltage value and a current value. The range of voltage detection is 48 to 126V. The charging notification module 3 is connected to the battery management module 2 and includes a notification unit 30 and a DC power supply unit 32. The notification unit 30 receives the battery information and also transmits the battery information to the external charging facility 4. The DC power supply unit 32 is electrically connected to the external charging facility 4 and supplies the DC current generated corresponding to the battery information.

The battery management module 2 and the charging notification module 3 described above may be provided on the circuit board 5.

The battery modules mentioned above are titanium niobium oxide battery, lithium cobalt oxide battery, lithium manganate battery, lithium nickel oxide battery, lithium nickel manganese cobalt (ternary) battery, iron phosphate lithium ion battery, lithium ceramic battery or soft carbon battery. But it's okay.

Please also refer to FIG. FIG. 3 is a block diagram illustrating driving of a smart charging identification device according to an exemplary embodiment of the present invention. Solid arrows in FIG. 3 indicate signal transmission directions, and dotted arrows indicate power transmission directions. There are many types of battery modules 1, each battery has different voltage and potential, and the battery module 1 mounted in the vehicle is electrically connected to the battery management module 2. The battery management module 2 detects the voltage and the potential of the battery module 1 and generates battery information matching the battery module based on the results of the voltage detection and the potential detection, and the voltage detection range is 48 to 126V. .. The battery information is voltage value and current. Since the current flows from a place where the potential is high to a place where the potential is low, the state of the current can be known from the state of the potential, and the remaining capacity can be known.

The charging notification module 3 electrically connected to the battery management module 2 receives the battery information matching the battery module 1, and then transmits the battery information of the battery module 1 to the external charging facility 4 via the notification unit 30. .. As a method for transmitting the battery information, an electrically connected signal transmission method or a wireless transmission method may be adopted. The external charging facility 4 that has received the battery information generates a corresponding DC current. This DC current matches the voltage of the battery module 1. The DC current is transmitted to the battery module 1 by the DC power supply unit 32 and charged. As can be seen from the above, batteries of various standards can be applied to electric vehicles of various manufacturers, and by using the present invention, batteries of various standards can be used in any kind of external charging equipment 4 (battery clamp). The battery can be charged and the battery can be prevented from being damaged. It prevents the battery from being damaged, extends the service life of the battery, prevents the battery from being used continuously even under abnormal conditions, and can be used safely. Also, the characteristics of the battery can be adjusted and applied to various application situations, and the battery status can be reported by communicating with the master side.

1 Battery Module 2 Battery Management Module 3 Charging Notification Module 4 External Charging Facility 5 Circuit Board 30 Notification Unit 32 DC Power Supply Unit

Claims (5)

A smart charging identification device comprising a battery module, a battery management module and a charging notification module,
The battery management module is electrically connected to the battery module, performs voltage detection and potential detection, and generates battery information matched with the battery module based on a result of the voltage detection and the potential detection,
The charging notification module is connected to the battery management module to receive the battery information, and a notification unit that transmits the battery information to an external charging facility, and is electrically connected to the external charging facility to connect the battery information. And a DC power supply unit that supplies a DC current generated corresponding to the smart charge identification device. The battery module is a titanium niobium oxide battery, a lithium cobalt oxide battery, a lithium manganate battery, a lithium nickel oxide battery, a lithium nickel manganese cobalt (ternary) battery, a lithium iron phosphate lithium ion battery, a lithium ceramic battery or a soft carbon battery. The smart charging identification device according to claim 1, wherein the smart charging identification device is provided. The smart charge identification device of claim 1, wherein the voltage detection range is 48 to 126V. The smart charge identification device of claim 1, wherein the battery management module and the charge notification module are provided on a circuit board. The smart charge identification device of claim 1, wherein the battery information is a voltage value and a current value.

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