KR101986309B1 - Safety tripod which can be powered by wireless power transmission - Google Patents

Abstract

The present invention relates to an emergency safety tripod configured to receive power wirelessly from an external wireless power supply apparatus, wherein the emergency safety tripod includes a light emitting unit and a controller for controlling the light emitting unit. The light emitting unit includes a first LED group made up of a plurality of LEDs and a second LED group made up of a plurality of LEDs. The controller includes a memory having an algorithm for on / off control of the first LED group and the second LED group A control unit for controlling the first LED group and the second LED group according to an operation control algorithm mounted on the memory, and a control unit for supplying switching power of the first LED group and the second LED group in response to an instruction from the control unit A driver and a power supply for supplying power to an emergency safety tripod, wherein the power supply is configured to wirelessly receive power from an external wireless power supply in a magnetically resonant manner.

Description

{SAFETY TRIPOD WHICH CAN BE POWERED BY WIRELESS POWER TRANSMISSION}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an emergency tripod, and more particularly, to an emergency tripod that is supplied wirelessly using magnetic resonance.

In general, when a vehicle is unexpectedly broken in a certain part of the vehicle and is no longer able to travel, for example, when the vehicle is guided to the shoulder of a road to repair a broken part, attention is paid to the driver of another vehicle An emergency safety tripod is usually provided to the rear of the vehicle so as to be notified to the driver of another vehicle. Therefore, the emergency safety tripod can be easily and visually confirmed by the driver of the rear vehicle.

In addition, safety tripods should be installed 100 meters behind the law according to legal regulations, but it is true that the risk of accidents increases during the installation process, which increases the burden on drivers. Especially, installing an emergency safety tripod on a highway not only adds to the psychological burden, but also points out that installing a safety tripod at night is difficult in reality.

In addition, in the case of a normal emergency safety tripod, a reflective safety tripod is mainly used, which reflects light from a light source to allow the driver of the other vehicle to perceive it, but this is convenient because there is no need for a separate power source. However, since such a reflective safety tripod requires the driver of the other vehicle to recognize the reflected light, the recognition distance of the emergency safety tripod is relatively short or difficult to detect, and the luminance of the reflected light itself is not high, In some cases, it may not be found and additional traffic accidents may occur.

In order to solve such a problem, a safety tripod for an LED vehicle is disclosed in Japanese Patent Laid-Open No. 10-2010-0129831. In this patent, a safety tripod uses an LED, not a reflection type, Help to provide distance.

However, the safety tripod of this patent document has a problem that a safety tripod can not be installed with a sufficient distance to the rear of the vehicle as the power is supplied from the cigar jack, and even when attached to a roof of a vehicle, a trunk of a vehicle, There is a disadvantage in that the installation distance is limited according to the wire length.

As described above, the present invention aims to provide an emergency safety tripod that can be installed within a certain distance from a vehicle and overcomes the disadvantages of battery-type battery discharge as in the conventional art.

According to one aspect of the present invention, there is provided an emergency safety tripod including a light emitting portion and a controller for controlling the light emitting portion. The light emitting unit includes a first LED group made up of a plurality of LEDs and a second LED group made up of a plurality of LEDs. The controller includes a memory having an algorithm for on / off control of the first LED group and the second LED group A control unit for controlling the first LED group and the second LED group according to an operation control algorithm installed in the memory, and a control unit for supplying switching power of the first LED group and the second LED group in response to an instruction from the control unit And a power supply unit for supplying power to the emergency safety tripod, and the power supply unit is configured to receive power wirelessly from an external wireless power supply device.

In the above-described aspect, the power supply unit includes a wireless power receiving unit configured to receive a wireless power signal wirelessly transmitted from the wireless power supply apparatus through a power receiving antenna in a magnetic resonance manner.

In the above-described aspect, the power supply unit may further include a power conversion unit for converting the wireless power signal supplied from the wireless power reception unit into a usage power corresponding to an amount of power required for driving the LED of the emergency safety tripod and supplying the power to the driver .

Further, in the above-described aspect, the power supply unit may further include a rechargeable battery that is charged by the power converted from the power supply conversion unit.

Also, in the above-described aspect, the power supply unit further includes an antenna for receiving power, the antenna for receiving power includes a resonant coil for receiving the wireless power signal transmitted from the wireless power supply apparatus, a wireless power signal from the resonant coil, And a feeding loop supplied to the receiver.

Also, in the above-described aspect, the power conversion unit includes an AC-DC converter for converting the AC power supplied from the wireless power receiving unit into DC power, and a DC-DC converter for boosting or stepping down the power converted to DC through the AC-DC converter So that it is possible to stably supply DC power to the LED driving driver.

The power converter may further include a power factor correcting circuit or a smoothing circuit for eliminating the ripple component generated by converting the alternating current into the direct current in the AC-DC converter.

According to the present invention, the emergency safety tripod can be freely installed outside the vehicle in proportion to the resonance distance as power is supplied from an external power source in a wireless charging mode, specifically, a magnetic resonance type, The disadvantage that the power is cut off can be overcome.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a main external configuration of an emergency safety tripod according to the present invention. Fig.
2 is a block diagram illustrating an internal circuit configuration of a controller of an emergency safety tripod according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described below, but may be embodied in various forms.

The present embodiments are provided so that the disclosure of the present invention is thoroughly disclosed and that those skilled in the art will fully understand the scope of the present invention. And the present invention is only defined by the scope of the claims. Accordingly, in some embodiments, well known components, well known operations, and well-known techniques are not specifically described to avoid an undesirable interpretation of the present invention.

Like reference numerals refer to like elements throughout the specification. Moreover, terms used herein (to be referred to) are intended to illustrate embodiments and are not intended to limit the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. Also, components and acts referred to as " comprising (or comprising) " do not exclude the presence or addition of one or more other components and operations.

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs. Also, commonly used predefined terms are not ideally or excessively interpreted unless they are defined.

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

1 is a view showing the appearance of an emergency safety tripod according to the present invention. 1, an emergency safety tripod 10 according to the present invention includes a light emitting unit 100 and a driving circuit unit 200.

The light emitting unit 100 includes two LED groups 110 and 120. The first LED group is configured to display the word "STOP" in the center of the emergency triangle in white, and the second LED group is arranged in the vicinity of the emergency safety tripod As shown in FIG.

The emergency safety tripod 10 is made of a transparent synthetic resin material whose front surface is made of a transparent synthetic resin material and the side surface and the rear surface are made of a lightweight metal material. The light emitting portion is disposed in the inner space between the synthetic resin material and the metal material, It is sealed with a sealing material and functions also as a waterproofing.

In particular, in the case of the side surface and the rear surface, it is constructed of a material having high thermal conductivity, such as aluminum or copper, so that the long-term unused safety tripod 10 can function as a heat sink for effectively discharging heat generated during long- .

Also, since the surface of the substrate on which the second LED group 120 of the emergency safety tripod according to the present invention is mounted is composed of the reflection plate 130, which is preferably reflected by the light, even in the abnormal state of the emergency tripod, So that the driver of the following vehicle can recognize the safety safety tripod.

The light emitting unit 100 includes a high-brightness LED 12, and a controller 200 for driving the light emitting unit is disposed between the LED substrate and the rear frame.

2 is a block diagram showing a main internal configuration of a controller 200 of an emergency safety tripod according to the present invention.

As shown in Fig. 2, the controller is shown as various components for the purpose of explanation, but is preferably composed of a single chip or a single chip. In the embodiment of the present invention, a controller of the light emitting unit 100 is configured using a PIC controller of Microchip Technology Co., USA.

The PIC controller is a small one-chip microcomputer that is ideal for battery-operated applications for a long time, and the memory and I / O circuitry are all in one IC. In particular, the PIC16C84 and PIC16F84 have the advantage of being able to erase the program instantly and simply write because the memory is EEPROM.

As shown in the figure, the controller 200 includes a memory 210 having an algorithm for controlling the ON and OFF of the LEDs, and a controller 210 for controlling the first LED group 110 and the second LED group 210 according to an operation control algorithm mounted on the memory 210. [ A control unit 220 for controlling the first LED group 110 and the second LED group 120 in response to an instruction from the control unit 220, And a driver 230 for controlling supply.

The control unit 220 includes a mode switch 240 that functions as a mode input terminal by the user to select the flashing mode of the first and second LED groups 110 and 120, And at least two flashing algorithms corresponding to the flashing mode of the two LED groups. Here, the blinking algorithm is a method in which each of the light emitting diodes is flashed or turned on for a predetermined period of time, for example, every 0.5 second, or some of the light emitting diodes are kept on and the remaining light emitting diodes are blinked, And the flashing mode can be used in combination as needed.

Further, the controller 200 further includes a power supply unit 250. The power supply unit 250 is configured to wirelessly receive power from the external wireless power supply device 300. [

To this end, the power supply unit 250 includes a wireless power receiving unit 252, a power conversion unit 254, and a rechargeable battery 256. The wireless power receiving unit 252 receives the wireless power signal wirelessly transmitted from the wireless power supplying apparatus 300 through a power receiving antenna (not shown) in a magnetic resonance manner, and supplies the wireless power signal to the power converting unit 254.

The power conversion unit 254 converts the wireless power signal supplied from the wireless power receiving unit 252 into the usage power corresponding to the amount of power required to drive the LED of the emergency safety tripod 10, (230) or to charge the rechargeable battery (256).

Here, the power reception antenna is constituted by a resonance coil for receiving the radio power signal transmitted from the radio power supply device 300 and a power supply loop for supplying the radio power signal from the resonance coil to the radio power signal reception unit 252 .

The power conversion unit 260 boosts / reduces the voltage supplied to the emergency safety tripod 10 in order to supply the power supplied from the wireless power reception unit 252 to the driver 230. The control unit 220 controls the step-up / step-down operation of the power conversion unit 260 and operates to convert the voltage and current capacity to the rated value of the emergency safety tripod 10.

Specifically, the power conversion unit 260 may include an AC-DC converter and a DC-DC converter. The power converter 260 converts the received AC power into DC power (AC-DC converter) and converts the converted DC power into DC-DC converter 20b The DC power is converted into the required DC power.

Also, though not shown, since a ripple component may exist due to the conversion of AC into DC, a smoother circuit, that is, a power factor correction circuit, is used to remove noise components, thereby enabling more stable power supply.

The emergency safety tripod thus configured is supplied from a wireless power supply device installed in an external vehicle or the like for powering the LED group, and the control unit controls to convert the power received through the power conversion unit to the required rated power, 256), so that it is possible to obtain an advantage that it is not necessary to use a separate DC power source and at the same time, it can be continuously used within a range allowing wireless charging (usually within 20 m).

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made without departing from the essential characteristics of the present invention by those skilled in the art. Therefore, the embodiments disclosed in the present invention are for illustrative purposes only and are not intended to limit the scope of the present invention, and the scope of the present invention is not limited by these embodiments.

10: Emergency safety tripod 110: 1st LED group
120: second LED group 130: reflective surface
200: controller 210: memory
220: control unit 230: driver
240: Mode switch 250: Power supply
252: wireless power receiving unit 254: power conversion unit
256: Rechargeable battery

Claims (7)

An emergency safety tripod including a light emitting portion and a controller for controlling the light emitting portion,
Wherein the light emitting portion includes a first LED group made up of a plurality of LEDs and a second LED group made up of a plurality of LEDs, wherein the first LED group is configured to display characters in white at the center portion of the emergency triangle, Emergency Safety Tripods are designed to be reddish along the perimeter of the tripod,
The controller comprising:
A memory mounted with an algorithm for lighting and flashing control of the first LED group and the second LED group,
A controller for controlling the flashing of the first LED group and the second LED group according to an operation control algorithm mounted on the memory;
A driver for supplying switching power of the first LED group and the second LED group in response to an instruction from the control unit,
And a power supply for supplying power to the emergency safety tripod,
Wherein the power supply unit is configured to wirelessly receive power from an external wireless power supply,
Wherein the power supply unit includes a wireless power receiving unit configured to receive a wireless power signal wirelessly transmitted from a wireless power supply apparatus through a power receiving antenna in a magnetic resonance manner,
The power supply unit may further include a power conversion unit for converting the wireless power signal supplied from the wireless power receiving unit into a usage power corresponding to an amount of power required to drive the LED of the emergency safety tripod and supplying the power to the driver,
The power supply unit may further include a rechargeable battery that is charged by the power converted from the power conversion unit,
The emergency safety tripod is made of a transparent synthetic resin material having a front surface and a side surface and a rear surface made of a light metal material. The light emitting portion is disposed in the inner space between the synthetic resin material and the metal material to prevent breakage, And the side and rear surfaces of the emergency safety tripod are made of aluminum or copper and function as a heat sink for discharging heat generated from the LED,
The board on which the second LED group of the emergency safety tripod is mounted is composed of a reflector reflecting the light, so that the emergency safety tripod is reflected by the light of the headlight of the succeeding vehicle even when the emergency safety tripod is in an abnormal state so that the driver of the following vehicle can recognize the safety safety tripod Characterized in that
Emergency safety tripod.
delete delete delete The method according to claim 1,
Wherein the power supply unit further includes an antenna for receiving power,
Wherein the power receiving antenna comprises a resonant coil for receiving the wireless power signal transmitted from the wireless power supply device and a feeding loop for supplying the wireless power signal from the resonant coil to the wireless power signal receiving unit.
6. The method of claim 5,
The power conversion unit includes an AC-DC converter for converting the AC power supplied from the wireless power receiver into DC power, and a DC-DC converter for boosting or reducing the power converted to DC through the AC-DC converter An emergency safety tripod.
The method according to claim 6,
Wherein the power conversion unit further comprises a smoothing circuit or a power factor correction circuit for removing a ripple component generated when the AC-DC converter converts AC into DC, in the AC-DC converter.

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