KR20200042136A - Automobile Battery Emergency Charging Device and Method - Google Patents

Abstract

The present invention relates to an automobile battery emergency charging device comprising: a super capacitor composed of a plurality of units; a relay which switches the flow of current between the super capacitor and an automobile battery according to a charging mode or a discharging mode; and a control unit controlling the relay according to the charging mode or the discharging mode, and to an emergency charging method of an automobile battery using the same. When the super capacitor and the automobile battery are discharged below a certain level, an emergency charging mode is performed to charge the super capacitor using residual power of the automobile battery.

Description

Auto battery emergency charging device and method

The present invention relates to an emergency charging device and method that can be used when discharging a vehicle battery.

As a conventional method that can be used when discharging a car battery, a method of starting a vehicle through a battery and a jump line of another vehicle, a method of charging a vehicle battery using a dedicated battery charger, and the like are commonly used. In the absence of a dedicated battery, there is a disadvantage that it is impossible to solve the problem.

As a conventional technique for solving this problem, Korean Patent No. 10-1571110 uses a high-capacitance storage device (for example, a super capacitor, an ultra capacitor, and an electric double layer capacitor) that has a small resistance and is capable of rapid charging and discharging. Disclosed is a technology that receives a current from a battery and charges a voltage and provides current to a battery of a vehicle that has been discharged again through high-power discharge.

Referring to the prior art with reference to Figure 1, the portable emergency power supply 100 is a high-capacitance storage device 101, two positive terminals (103a, 103b), one negative terminal 105, voltage measurement It comprises a portion 107 and a resistor 109, the vehicle is composed of a vehicle battery 130 and the rod 150, that is, a starter.

When the vehicle is running or when the voltage of the battery 130 of the vehicle is higher than the voltage of the high-capacitance storage device 101 measured by the voltage measurement unit 107, the positive terminal 103a and the negative terminal 105 are connected to the vehicle battery. By connecting to both ends of 130, a current flows from the vehicle battery 130 to the high-capacitance storage device 101 to charge the high-capacitance storage device.

Conversely, when the battery of the vehicle is discharged and the voltage of the high correction capacity storage device 101 is higher than the voltage of the vehicle battery 130, the positive terminal 103b and the negative terminal 105 are connected to both ends of the vehicle battery 130. In this way, a current flows from the high capacitance storage device 101 to the vehicle battery 130 to charge the vehicle battery.

However, if the voltage of the vehicle battery 130 is lower than the voltage of the high-capacity storage device 101, as in the case of the prior art of FIG. 1, the battery mounted in the vehicle is discharged in a state in which it cannot be started, high-capacity storage There is a problem in that the device 101 cannot be charged and no action can be taken when both the vehicle battery 130 and the high-capacity storage device 101 are discharged.

Republic of Korea Patent No. 10-1571110 (2015.11.23. Registration notice)

The present invention uses an electric double layer capacitor (EDLC) (hereinafter referred to as a 'super capacitor') called a supercapacitor or ultracapacitor as one of a high-capacitance storage device, so that a battery mounted in a vehicle cannot start. An object of the present invention is to provide an emergency charging device and method for charging a vehicle battery when discharged to a state, when the voltage of the vehicle battery is lower than the voltage of the super capacitor, and even when both the vehicle battery and the super capacitor are discharged. .

In order to achieve the above object, an emergency charging device for a vehicle battery according to an embodiment of the present invention includes a supercapacitor composed of a plurality of units, and a relay for switching a current flow between the supercapacitor and the vehicle battery according to a charging or discharging mode , A control unit for controlling the relay according to a charging mode or a discharging mode, in the charging mode, charging the supercapacitor using the vehicle battery or a separate external power source, and in the discharging mode, discharging the supercapacitor A vehicle battery emergency charging device for charging the vehicle battery through an emergency charging mode for charging the super capacitor using residual power of the vehicle battery when the super capacitor and the vehicle battery are discharged below a certain level. Be equipped.

The emergency charging device may further include a DC-DC converter that boosts the residual voltage of the vehicle battery in the emergency charging mode and applies it to the super capacitor.

In addition, the emergency charging device further includes an emergency charging switch for initiating the emergency charging mode, and the control unit controls the step-up operation of the DC-DC converter according to the operation of the emergency charging switch. .

In addition, the emergency charging device is characterized in that the energy charged in the super capacitor in the emergency charging mode is equal to or higher than the energy required to start the start motor connected to the vehicle battery for a predetermined short time.

On the other hand, in order to achieve the above object, the emergency charging method for a vehicle battery according to an embodiment of the present invention is a supercapacitor composed of a plurality of units, and switches the current flow between the supercapacitor and the vehicle battery according to a charging or discharging mode A vehicle battery emergency charging method using a vehicle battery emergency charging device having a control unit that controls the relay according to a relay, a charging mode or a discharge mode, wherein the super capacitor and the vehicle battery are discharged below a certain level, respectively. And performing an emergency charging mode for charging the supercapacitor using residual power of the vehicle battery.

In the emergency charging method of the vehicle battery, the performing of the emergency charging mode further includes boosting the residual voltage of the vehicle battery using a DC-DC converter and applying it to the super capacitor.

In addition, the performing of the emergency charging mode further includes charging the vehicle battery by applying a current from the super capacitor to the vehicle battery when the super capacitor is charged to a predetermined level or higher.

The present invention uses a supercapacitor mounted on a vehicle at all times, when the battery installed in the vehicle is discharged in a state in which it cannot be started, when the voltage of the vehicle battery is lower than the voltage of the supercapacitor, and the vehicle battery and the supercapacitor It is possible to provide an emergency charging device and method for charging a vehicle battery even when all of them are discharged.

1 shows a portable emergency power supply according to the prior art.
2 is a block diagram of an emergency charging device for a vehicle battery according to an embodiment of the present invention.
3 shows a charging mode of an emergency charging device for a vehicle battery according to an embodiment of the present invention.
4 illustrates a discharge mode of an emergency charging device for a vehicle battery according to an embodiment of the present invention.
5 illustrates an emergency charging mode of an emergency charging device for a vehicle battery according to an embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of an emergency charging device for a vehicle battery according to an embodiment of the present invention.

In FIG. 2, the vehicle battery emergency charging device 200 includes a supercapacitor 210, a relay 220, a circuit board 230, a switch 240, and a connector 250 composed of a plurality (eg, 5) units. It is configured to include, and a jump line including a connection jack 260 and a clamp 270 is separately provided.

The supercapacitor 210 is composed of, for example, a plurality of units having a rated charging voltage of 3 (V), and in the charging mode, receives a current from the vehicle battery 390 through the relay 220 to charge itself, and discharge mode. Estimates to apply the current to the vehicle battery 390 through the relay 220 to charge the vehicle battery 390.

The relay 220 switches the flow of current according to the charging or discharging mode under the control of the control unit 330. Specifically, when power is applied to the circuit board by a user operating the power switch 340 of the vehicle battery emergency charging device 300 as a switch-on, the control unit 330 configured in the circuit board includes a super capacitor 310 The relay 320 is controlled so that current flows from a component at a high potential to a component at a low potential among the vehicle batteries 390.

The circuit board 230 is configured to include at least a control unit 330 and a DC-DC converter 335 and is embedded in one side of the housing.

The switch 240 is operated by a user to turn on / off the power and initiate an emergency charging mode. In some cases, the switch 240 may be configured as a separate power switch 340 and an emergency charging switch 345.

The connector 250 is an input / output unit for connecting the capacitor 310 and the vehicle battery 390, and is connectable to a jump line including a connection jack 260, a connection line, and a clamp 270.

3 illustrates a charging mode of an emergency charging device for a vehicle battery according to an embodiment of the present invention, and FIG. 4 illustrates a discharge mode.

The red arrow indicates the flow of the control signal, and the black arrow indicates the flow of the current.

First, in the charging mode of the vehicle battery emergency charging device 300, the super capacitor 310 is charged using the vehicle battery 390 or a separate external power source.

If the voltage across both ends of the vehicle battery 390 is higher than the voltage across both ends of the super capacitor 310, including when the vehicle is running, the vehicle is starting, the super capacitor in the vehicle battery 390 by the relay 320 The current flows to 310 and the supercapacitor 310 is automatically charged. Alternatively, it is also possible to charge the super capacitor 310 using a separate external power source such as an emergency battery.

Conversely, in the discharge mode of the vehicle battery emergency charging device 300, the vehicle battery 390 is charged using the super capacitor 310.

When the car battery 390 is discharged and the voltage of the super capacitor 310 is higher than the voltage of the car battery 130, a current flows from the super capacitor 310 to the car battery 390 by the relay 320 and the car battery ( 390) is automatically charged.

The operation of the relay 320 according to the charging or discharging mode is controlled by the control unit 330. When power is applied to the circuit board by the user operating the power switch 340 of the car battery emergency charging device 300, the control unit 330 may be configured from a component having a high potential among the super capacitor 310 and the car battery 390. The relay 320 is controlled so that current flows to a component at a low potential.

In addition, a balancer (not shown) may be provided in the control unit 330 to prevent overcurrent from flowing into the supercapacitor 310 and the vehicle battery 390 or to apply an overvoltage, such that the abnormality of the vehicle battery emergency charging device 300 is abnormal. It can prevent movement.

3 and 4, the DC-DC converter 335 included in the same circuit board does not operate in a normal charging or discharging mode.

5 illustrates an emergency charging mode of an emergency charging device for a vehicle battery according to an embodiment of the present invention.

The red arrow indicates the flow of the control signal, and the black arrow indicates the flow of the current.

When the car battery 390 is discharged in a state in which it cannot be started, the voltage of the car battery 390 becomes lower than the voltage of the super capacitor 310, so that the super capacitor 310 cannot be charged. If even discharged, normal charging and discharging cannot be performed through the charging or discharging mode of FIG. 3 or 4.

As described above, when the vehicle battery 390 and the super capacitor 310 are discharged simultaneously, an emergency charging mode is required to charge the super capacitor 310 using the residual power of the battery 390 discharged through the emergency charging mode. Do.

The emergency charging mode is a mode in which the user operates the emergency charging switch 345 separate from the power switch 340 to cause the controller 330 to operate the DC-DC converter 335. In FIG. 5, the power switch 340 and the emergency charging switch 345 are shown as separate components, but may be divided into on / off / emergency, etc., and may be integrated into a single switch capable of multi-stage connection.

The DC-CD converter 335 is an element also called a linear regulator or a switching regulator, and is a component that converts direct current into direct current of a different voltage. In the case of boosting the voltage, it is also referred to as a boost converter, booster converter, or step-up converter.

The DC-DC converter 335 of FIG. 5 boosts the voltage input from the vehicle battery 390 until its output voltage becomes a voltage sufficient to charge the supercapacitor 310, which is applied to high-speed interruption of the internal switching element. Is performed by.

For example, when the rated voltage of the vehicle battery 390 is 12V and the output is 1kW, in order to flow current through the start motor for X seconds to start, approximately 1,000W * 12V * Xsec = X * 12,000J (Joule, Joule ), So for example, 12,000J, 24,000J, and 36,000J (joules) of electrical energy are consumed to flow current through the starter motor for 1, 2, or 3 seconds. When the car is started through this process, the car battery 390 charges the car battery 390 with a voltage of around 14V while the car is driving, and through this, the car battery 390 restores discharged energy.

In order to be able to start in this way, the rated voltage of the vehicle battery 390 must be able to flow a current of a predetermined amount or more to the start motor while the proper voltage is maintained, and the voltage of the vehicle battery 390 is approximately 9 V or less. When it is lowered, even the minimum energy cannot be supplied, and the vehicle cannot be started.

In this case, the DC-DC converter 335 operates according to the operation of the emergency charging switch 345 to boost the input voltage (for example, 2V) from the vehicle battery 390 to a supercapacitor rated voltage, for example, 2.85V. The operation of charging the super capacitor 310 is performed.

The rated voltage of a commercially available supercapacitor unit is generally 2.5 to 3V, and in the embodiment of FIG. 2, a supercapacitor unit of 2.85V is exemplarily applied.

When the five supercapacitor units are connected in series as shown in FIG. 2, if the capacity of each unit is 3,000F (farads), the voltage across the supercapacitor is 14.25V, so the total energy charged in the supercapacitor is Is calculated by

Q _T = 1/2 * C _T * V _T ²

C _T is 1 / C _T = 1 / C ₁ + 1 / C ₂ + 1 / C ₃ + 1 / C ₄ + 1 / C ₅ = 5 / Cn

C _T = Cn / 5 = 600 (F)

Q _T = 0.5 * 600 * 14.25 ² ≒ 60,920 (J)

Since the energy charged in the super capacitor in the emergency charging mode is 60,000 (J) or more, there is no problem in supplying or jumping the electric energy required for starting the car for about 5 seconds to the discharged car battery 390, and intermittent for 1 or 2 seconds. In case of starting, it can be done 2 ~ 5 times.

The super capacitor unit is connected in series to configure the alternator to maintain a charging voltage equal to or higher than the voltage supplied to the vehicle battery, and the DC (DC converter) 335 is used to discharge the discharged vehicle battery 390 voltage (for example, 9V). It is important to step up to the required charging voltage (e.g. 14.25V) and supply it across the super capacitor.

As described above, when the super capacitor 310 is charged in the emergency charging mode, emergency discharge is performed from the super capacitor 310 to the vehicle battery 390, thereby enabling the vehicle to start. The emergency discharge in this case is meaningful to transfer the minimum energy required for starting to the vehicle battery 390, unlike the conventional discharge in FIG. 4.

Although the present invention has been described for illustrative purposes through exemplary embodiments of the present invention, those skilled in the art to which the present invention pertains may make various modifications without departing from the scope and spirit of the invention as described in the claims. , It will be understood that additions and substitutions are possible. Accordingly, the invention is not limited to the embodiments disclosed herein, and the scope of the claimed invention should be determined not only by the invention described in the claims, but also by their equivalents. Certain terms used in the specification and drawings are used for illustrative purposes only, and no part should be regarded as a limitation on the present invention.

Claims (9)

It has a super capacitor composed of a plurality of units, a relay for switching the flow of current between the super capacitor and the car battery according to the charging or discharging mode, and a control unit for controlling the relay according to the charging mode or the discharging mode, the charging mode In the vehicle battery or a separate external power source to charge the super capacitor, and in the discharge mode, the vehicle battery emergency charging device for charging the vehicle battery through the discharge of the super capacitor,
Equipped with an emergency charging mode for charging the super capacitor using the residual power of the vehicle battery when the super capacitor and the vehicle battery are discharged below a certain level,
Car battery emergency charging device. The method according to claim 1,
In the emergency charging mode, characterized in that it further comprises a DC-DC converter for boosting the residual voltage of the vehicle battery and applying it to the super capacitor,
Car battery emergency charging device. The method according to claim 2,
Each unit of the super capacitor is characterized in that connected in series,
Car battery emergency charging device. The method according to claim 3,
In the emergency charging mode, the energy charged in the super capacitor is equal to or higher than the energy required to start the start motor connected to the vehicle battery for a predetermined short time.
Car battery emergency charging device. The method according to claim 4,
In the emergency charging mode, the voltage applied to the supercapacitor is characterized in that it is equal to or higher than the normal voltage supplied by the car's alternator to the car battery.
Car battery emergency charging device. Car battery emergency charging having a super capacitor composed of a plurality of units, a relay for switching the flow of current between the super capacitor and the car battery according to a charging or discharging mode, and a control unit controlling the relay according to a charging mode or a discharging mode As an emergency charging method for a car battery using a device,
And performing an emergency charging mode for charging the super capacitor using residual power of the vehicle battery when the super capacitor and the vehicle battery are discharged below a certain level, respectively.
Car battery emergency charging method. The method according to claim 6,
The step of performing the emergency charging mode may further include boosting the residual voltage of the vehicle battery using a DC-DC converter and applying it to the super capacitor.
Car battery emergency charging method. The method according to claim 7,
The performing of the emergency charging mode may further include charging the vehicle battery by applying a current from the super capacitor to the vehicle battery when the super capacitor is charged to a predetermined level or higher.
Car battery emergency charging method. The method according to claim 7,
Each unit of the super capacitor is characterized in that connected in series,
Car battery emergency charging method.

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